2020.0275.BP0020 Wyndstone Building 1 - Calcs - 5.20.2020ENGINEERING CALCU LATION5
For:
C*E Devlopment
51te:
15025 Tahoma Blvd 5E
Yelm, WA
Project:
Wynd5tone - Bldg
5.20.2020
DATE: PROJECT NAME:
EXODUS ENGINEERING
e L LL� PHONE: (360) 345-I5GG
5.20.2020 Wynd5tone - Bldg I ti;L� LUKE@fXODU5ENGINEER.COM
Page 2 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral.wsw Oct. 3, 2019 15:54:41
0'15'30'
0'
15'
30'
45'
60'
75'
I-2
5-2C-2
1-1A-1 2-1A-2
B-1
A-33-15-11-31-2E-1
G-1
K-1
2-2K-2
J-13-2K-3
5-75-45-3C-1
D-1 5-65-5H-1
I-1
F-2F-1
4-14-2Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 1 of 3
Page 3 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral.wsw Oct. 3, 2019 15:54:41
0'15'30'
0'
15'
30'
45'
60'
75'
I-2
C-2
B-1
A-1
B-2 B-3
3-15-11-31-2C-1
I-1
J-1
K-1
J-23-2J-3
5-35-22-12-21-1F-2F-1
Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 2 of 3
Page 4 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral.wsw Oct. 3, 2019 15:55:34
0'15'30'
0'
15'
30'
45'
60'
75'
C-12-15-1I-1
F-2F-1
Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 3 of 3
Page 5 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1
Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Project Information
COMPANY AND PROJECT INFORMATION
Company Project
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
DESIGN SETTINGS
Design Code
IBC 2015/AWC SDPWS 2015
Wind Standard
ASCE 7-10 Directional (All heights)
Seismic Standard
ASCE 7-10
Load Combinations
For Design (ASD)
0.70 Seismic + 0.60 Dead
0.60 Wind + 0.60 Dead
For Deflection (Strength)
1.00 Seismic + 0.90 Dead
1.00 Wind + 0.90 Dead
Building Code Capacity Modification
Wind Seismic
1.00 1.00
Service Conditions and Load Duration
Duration
Factor
-
Temperature
Range
-
Moisture Content
Fabrication Service
15% <=19% 10% <=19%
Max Shearwall Offset [ft]
Plan
(within story)
4.00
Elevation
(between stories)
0.00
Maximum Height-to-width Ratio
Wood panels
Wind Seismic
Fiberboard Lumber
Wind Seismic
Gypsum
Blocked Unblocked
3.5 3.5 - - - - -
Ignore non-wood-panel shear resistance contribution...
Wind Seismic
when comb'd w/ wood panels Always
Collector forces based on...
Hold-downs Applied loads
Drag struts Applied loads
Shearwall Relative Rigidity: Wall capacity
Perforated shearwall Co factor: SDPWS Equation 4.3-5
Non-identical materials and construction on the shearline: Allowed, except for material type
Deflection Equation: 3-term from SDPWS 4.2-1
Drift limit for wind design: 1 / 500 story height
SITE INFORMATION
Risk Category Category II - All others
Wind
ASCE 7-10 Directional (All heights)
Seismic
ASCE 7-10 12.8 Equivalent Lateral Force Procedure
Design Wind Speed 110 mph
Exposure Exposure B
Enclosure Enclosed
Structure Type Regular
Building System Bearing Wall
Design Category D
Site Class D
Topographic Information [ft]
Shape
-
Height
-
Length
-
Site Location: -
Elev: 0ft Avg Air density: 0.0765 lb/cu ft
Rigid building - Static analysis
Spectral Response Acceleration
S1: 0.500g Ss: 1.250g
Fundamental Period E-W N-S
T Used 0.288s 0.288s
Approximate Ta 0.288s 0.288s
Maximum T 0.403s 0.403s
Response Factor R 6.50 6.50
Fa: 1.00 Fv: 1.60 Case 2 N-S loadsE-W loads
Eccentricity (%)15 15
Loaded at 75%
Min Wind Loads: Walls
Roofs
16 psf
8 psf
Serviceability Wind Speed 85 mph
1
Page 6 of 132
WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Structural Data
STORY INFORMATION
Hold-down
Story Floor/Ceiling Wall Length subject to Bolt
Elev [ft]Depth [in]Height [ft]shrinkage [in]length [in]
Ceiling 29.00 0.0
Level 3 20.00 12.0 9.00 15.7 16.5
Level 2 10.00 12.0 9.00 15.7 16.5
Level 1 0.00 0.0 9.00 3.8 4.5
Foundation 0.00
SHEATHING MATERIALS by WALL GROUP
Sheathing Fasteners Apply
Grp Surf Material Ratng Thick GU Ply Or Gvtv Size Type Df Eg Fd Bk Notes
in in lbs/in in in
1 Ext Struct Sh OSB 24/0 3/8 -3 Vert 77500 6d Nail N 2 12 Y 2
2 Ext Struct Sh OSB 24/0 3/8 - 3 Vert 77500 6d Nail N 6 12 Y
3 Ext Struct Sh OSB 24/0 3/8 - 3 Vert 77500 6d Nail N 3 12 Y 2
4 Ext Struct Sh OSB 24/0 3/8 -3 Vert 77500 6d Nail N 4 12 Y
Legend:
Grp – Wall Design Group number, used to reference wall in other tables
Surf – Exterior or interior surface when applied to exterior wall
Ratng – Span rating, see SDPWS Table C4.2.2.2C
Thick – Nominal panel thickness
GU - Gypsum underlay thickness
Ply – Number of plies (or layers) in construction of plywood sheets
Or – Orientation of longer dimension of sheathing panels
Gvtv – Shear stiffness in lb/in. of depth from SDPWS Tables C4.2.2A-B
Type – Fastener type from SDPWS Tables 4.3A-D: Nail – common wire nail for structural panels and lumber, cooler or gypsum wallboard nail for
GWB, plasterboard nail for gypsum lath, galvanised nail for gypsum sheathing; Box - box nail; Casing – casing nail; Roof – roofing nail; Screw –
drywall screw
Size - Common, box, and casing nails: refer to SDPWS Table A1 (casing sizes = box sizes).
Gauges: 11 ga = 0.120” x 1-3/4” (gypsum sheathing, 25/32” fiberboard ), 1-1/2” (lath & plaster, 1/2” fiberboard); 13 ga plasterboard = 0.92” x 1-
1/8”.
Cooler or gypsum wallboard nail: 5d = .086” x 1-5/8”; 6d = .092” x 1-7/8”; 8d = .113” x 2-3/8”; 6/8d = 6d base ply, 8d face ply for 2-ply GWB.
Drywall screws: No. 6, 1-1/4” long.
5/8” gypsum sheathing can also use 6d cooler or GWB nail
Df – Deformed nails ( threaded or spiral), with increased withdrawal capacity
Eg – Panel edge fastener spacing
Fd – Field spacing interior to panels
Bk – Sheathing is nailed to blocking at all panel edges; Y(es) or N(o)
Apply Notes – Notes below table legend which apply to sheathing side
Notes:
2. Framing at adjoining panel edges must be 3" nominal or wider with staggered nailing according to SDPWS 4.3.7.1.4
FRAMING MATERIALS and STANDARD WALL by WALL GROUP
Wall Species Grade b d Spcg SG E Standard Wall
Grp in in in psi^6
1 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
2 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
3 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
4 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
Legend:
Wall Grp – Wall Design Group
b – Stud breadth (thickness)
d – Stud depth (width)
Spcg – Maximum on-centre spacing of studs for design, actual spacing may be less.
SG – Specific gravity
E – Modulus of elasticity
Standard Wall - Standard wall designed as group.
Notes:
Check manufacture requirements for stud size, grade and specific gravity (G) for all shearwall hold-downs.
2
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Loads
DEAD LOADS (for hold-down calculations)
Shear Level Profile Tributary Location [ft]Mag [lbs,psf,psi]
Line Width [ft] Start End Start End
C 3 Line 12.00 38.50 393.0
F 3 Line 12.00 38.50 258.0
I 3 Line 12.00 38.50 393.0
2 3 Line 21.75 52.25 75.0
2 3 Line 21.75 52.25 153.0
5 3 Line 21.75 52.25 153.0
B 2 Line -2.00 36.75 258.0
B 2 Point 12.00 12.00 700
C 2 Line 12.00 38.50 393.0
F 2 Line 12.00 38.50 258.0
I 2 Line 12.00 38.50 393.0
J 2 Line -2.00 36.75 258.0
1 2 Point 6.75 6.75 198
2 2 Line 21.75 52.25 153.0
2 2 Line 21.75 52.25 75.0
5 2 Line 7.75 66.25 158.0
5 2 Line 21.75 52.25 153.0
A 1 Line 0.00 36.75 118.0
C 1 Line 12.00 38.50 393.0
F 1 Line 12.00 38.50 258.0
I 1 Line 12.00 38.50 393.0
J 1 Line -2.00 36.75 258.0
K 1 Line 0.00 36.75 118.0
1 1 Line 0.00 74.00 188.0
1 1 Point 6.75 6.75 198
2 1 Line 21.75 52.25 153.0
2 1 Line 21.75 52.25 75.0
5 1 Line 0.00 74.00 188.0
5 1 Line 21.75 52.25 153.0
3
Page 8 of 132
WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Design Summary
SHEARWALL DESIGN
Wind Shear Loads, Flexible Diaphragm
All shearwalls have sufficient design capacity.
Seismic Loads, Flexible Diaphragm
All shearwalls have sufficient design capacity.
HOLDDOWN DESIGN
Wind Loads, Flexible Diaphragm
All hold-downs have sufficient design capacity.
Seismic Loads, Flexible Diaphragm
All hold-downs have sufficient design capacity.
This Design Summary does not include failures that occur due to excessive story drift from ASCE 7 CC1.2 (wind) or 12.12 (seismic).
Refer to Story Drift table in this report to verify this design criterion.
Refer to the Deflection table for possible issues regarding fastener slippage (SDPWS Table C4.2.2D).
4
Page 9 of 132
WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Flexible Diaphragm Wind Design
ASCE 7 Directional (All Heights) Loads
SHEAR RESULTS
N-S W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line 1
Level 2
Ln1, Lev2 - Both - - 3622 - - - - - - 13200 -
Wall 1-1 4 Both 78.5 115.2 785 - 1.0 - 420 0.68 286 2860 0.27
Wall 1-2 4 Both 91.2 115.2 2053 - 1.0 - 420 0.79 332 7481 0.27
Wall 1-3 4 Both 78.5 115.2 785 - 1.0 - 420 0.68 286 2860 0.27
Level 1
Ln1, Lev1 - Both - - 5692 - - - - - - 13694 -
Wall 1-1 4 Both 144.1 174.6 2126 - 1.0 - 420 0.83 347 5114 0.42
Wall 1-2 4 Both 174.6 174.6 1440 - 1.0 - 420 1.00 420 3465 0.42
Wall 1-3 4 Both 144.1 174.6 2126 - 1.0 - 420 0.83 347 5114 0.42
Line 2
Level 3
Ln2, Lev3 - Both - - 2295 - - - - - - 7770 -
Wall 2-1 4 Both - - 2295 - 1.0 - 420 - - 7770 -
Seg. 1 - Both 124.1 - 837 - 1.0 - 420 - 420 2835 0.30
Seg. 2 - Both 124.1 - 620 - 1.0 - 420 - 420 2100 0.30
Seg. 3 - Both 124.1 - 837 - 1.0 - 420 - 420 2835 0.30
Line 5
Ln5, Lev3 2 Both 57.5 - 1754 - 1.0 - 280 - 280 8540 0.21
Level 2
Ln5, Lev2 - Both - - 4648 - - - - - - 19708 -
Wall 5-1 4 Both 96.3 96.3 1108 - 1.0 - 420 1.00 420 4830 0.23
Wall 5-2 4 Both 87.1 101.6 2457 - 1.0 - 420 0.86 360 10153 0.24
Wall 5-3 4 Both 96.3 96.3 1084 - 1.0 - 420 1.00 420 4725 0.23
Level 1
Ln5, Lev1 - Both - - 6656 - - - - - - 17484 -
Wall 5-1 2 Both 106.6 - 2052 - 1.0 - 280 - 280 5390 0.38
Wall 5-2 2 Both 77.0 - 250 - .72 - 280 - 202 657 0.38
Wall 5-3 2 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 5-4 2 Both 106.6 - 2079 - 1.0 - 280 - 280 5460 0.38
Wall 5-5 2 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 5-6 2 Both 77.0 - 250 - .72 - 280 - 202 657 0.38
Wall 5-7 2 Both 106.6 - 2025 - 1.0 - 280 - 280 5320 0.38
E-W W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line A
Level 2
LnA, Lev2 - Both - - 212 - - - - - - 1999 -
Wall A-1 2 Both - - 212 - 1.0 - 280 - - 1999 -
Seg. 1 - Both 28.1 - 119 - .94 - 264 - 264 1124 0.11
Seg. 2 - Both 24.8 - 93 - .83 - 233 - 233 875 0.11
Level 1
LnA, Lev1 - Both - - 8904 - - - - - - 9629 -
Wall A-1 1^Both - - 2641 - 1.0 - 714 - - 2856 -
Seg. 1 - Both 440.2 - 1321 - .67 - 476 - 476 1428 0.92
Seg. 2 - Both 440.2 - 1321 - .67 - 476 - 476 1428 0.92
Wall A-2 1^Both - - 4714 - 1.0 - 714 - - 5097 -
Seg. 1 - Both 623.6 - 2650 - .94 - 674 - 674 2866 0.92
Seg. 2 - Both 550.2 - 2063 - .83 - 595 - 595 2231 0.92
Wall A-3 1^Both 476.9 - 1550 - .72 - 714 - 516 1676 0.92
Line B
Level 2
LnB, Lev2 - Both - - 5119 - - - - - - 5179 -
Wall B-1 3^Both - - 3852 - 1.0 - 546 - - 3898 -
Seg. 1 - Both 449.7 - 1686 - .83 - 455 - 455 1706 0.99
Seg. 2 - Both 509.7 - 2166 - .94 - 516 - 516 2192 0.99
Wall B-2 2 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall B-3 3^Both 389.7 - 1267 - .72 - 546 - 394 1282 0.99
Line C
Level 3
LnC, Lev3 4 Both 174.7 203.6 3626 - 1.0 - 420 0.86 360 7480 0.48
Line F
LnF, Lev3 - Both - - 2822 - - - - - - 14840 -
Wall F-1 2 Both 53.3 - 1411 - 1.0 - 280 - 280 7420 0.19
5
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
SHEAR RESULTS (flexible wind design, continued)
Wall F-2 2 Both 53.3 - 1411 - 1.0 - 280 - 280 7420 0.19
Level 2
LnF, Lev2 - Both - - 7859 - - - - - - 20440 -
Wall F-1 2 Both 107.7 - 3929 - 1.0 - 280 - 280 10220 0.38
Wall F-2 2 Both 107.7 - 3929 - 1.0 - 280 - 280 10220 0.38
Level 1
LnF, Lev1 - Both - - 12804 - - - - - - 20440 -
Wall F-1 2 Both 175.4 - 6402 - 1.0 - 280 - 280 10220 0.63
Wall F-2 2 Both 175.4 - 6402 - 1.0 - 280 - 280 10220 0.63
Line I
Level 3
LnI, Lev3 4 Both 175.0 203.9 3631 - 1.0 - 420 0.86 360 7480 0.49
Line J
Level 2
LnJ, Lev2 - Both - - 4759 - - - - - - 5179 -
Wall J-1 3 Both - - 3581 - 1.0 - 546 - - 3898 -
Seg. 1 - Both 418.0 - 1568 - .83 - 455 - 455 1706 0.92
Seg. 2 - Both 473.8 - 2014 - .94 - 516 - 516 2192 0.92
Wall J-2 2 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall J-3 3 Both 362.3 - 1177 - .72 - 546 - 394 1282 0.92
Line K
LnK, Lev2 - Both - - 217 - - - - - - 1999 -
Wall K-1 2 Both - - 217 - 1.0 - 280 - - 1999 -
Seg. 1 - Both 28.6 - 122 - .94 - 264 - 264 1124 0.11
Seg. 2 - Both 25.3 - 95 - .83 - 233 - 233 875 0.11
Level 1
LnK, Lev1 - Both - - 8444 - - - - - - 9629 -
Wall K-1 1 Both - - 2504 - 1.0 - 714 - - 2856 -
Seg. 1 - Both 417.4 - 1252 - .67 - 476 - 476 1428 0.88
Seg. 2 - Both 417.4 - 1252 - .67 - 476 - 476 1428 0.88
Wall K-2 1 Both - - 4470 - 1.0 - 714 - - 5097 -
Seg. 1 - Both 591.3 - 2513 - .94 - 674 - 674 2866 0.88
Seg. 2 - Both 521.7 - 1957 - .83 - 595 - 595 2231 0.88
Wall K-3 1 Both 452.2 - 1470 - .72 - 714 - 516 1676 0.88
Legend:
W Gp - Wall design group defined in Sheathing and Framing Materials tables, where it shows associated Standard Wall. "^" means that this wall is
critical for all walls in the Standard Wall group.
For Dir - Direction of wind force along shearline.
v - Design shear force on segment = ASD factored shear force per unit FHS
vmax - Collector shear force for perforated walls as per SDPWS eqn. 4.3-8 = V/FHS/Co. Full height sheathing (FHS) factored for narrow segments
as per 4.3.4.3
V - ASD factored shear force. For shearline: total shearline force. For wall: total of all segments on wall. For segment: force on segment
Asp/Cub – For wall: Unblocked structural wood panel factor Cub from SDPWS 4.3.3.2. For segment: Aspect ratio adjustment from SDPWS
4.3.3.4.1
Int - Unit shear capacity of interior sheathing; Ext - Unit shear capacity of exterior sheathing. For wall: Unfactored. For segment: Include Cub factor
and aspect ratio adjustments.
Co - Adjustment factor for perforated walls from SDPWS Equation 4.3-5.
C - Sheathing combination rule, A = Add capacities, S = Strongest side or twice weakest, G = Stiffness-based using SDPWS 4.3-3.
Cmb - Combined interior and exterior unit shear capacity including perforated wall factor Co.
V – Total factored shear capacity of shearline, wall or segment.
Crit Resp – Response ratio = v/Cmb = design shear force/unit shear capacity. "S" indicates that the wind design criterior was critical in selecting
wall.
Notes:
Refer to Elevation View diagrams for individual level for uplift anchorage force t for perforated walls given by SDPWS 4.3.6.4.2,4.
6
Page 11 of 132
WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
HOLD-DOWN DESIGN (flexible wind design)
Level 1 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 0.12 1 127
1-1 L Op 3 0.00 2.13 496
V Elem -2.00 6.88 2 1064 119 945 Refer to upper level
1-1 L End 0.00 8.38 2 1598 1427 171 STHD10 (6" 2640 0.06
V Elem -2.00 22.63 2 1064 0 1064 Refer to upper level
V Elem -2.00 22.88 2 1049 1049 Refer to upper level
1-1 R End 0.00 25.88 2 1598 1340 259 STHD10 (6" 2640 0.10
1-1 R Op 3 0.00 32.13 381
1-1 R End 0.00 32.62 1 42
1-2 L End 2.00 32.88 2 1620 465 1155 STHD10 (6" 2640 0.44
1-2 R End 2.00 40.88 2 1620 465 1155 STHD10 (6" 2640 0.44
1-3 L End 0.00 41.13 1 42
1-3 L Op 3 0.00 41.63 381
1-3 L End 0.00 47.88 2 1598 1340 259 STHD10 (6" 2640 0.10
V Elem -2.00 51.13 2 1049 1049 Refer to upper level
V Elem -2.00 51.38 2 1064 1064 Refer to upper level
1-3 R End 0.00 65.38 2 1598 1340 259 STHD10 (6" 2640 0.10
V Elem -2.00 67.12 2 1064 1064 Refer to upper level
1-3 R Op 3 0.00 71.63 479
1-3 R End 0.00 73.88 1 141
Line 2
V Elem 12.00 21.88 2 1159 462 698 Refer to upper level
V Elem 12.00 28.38 2 1159 872 287 Refer to upper level
V Elem 12.00 34.63 2 1175 752 423 Refer to upper level
V Elem 12.00 39.38 2 1175 752 423 Refer to upper level
V Elem 12.00 45.63 2 1159 872 287 Refer to upper level
V Elem 12.00 52.13 2 1159 462 698 Refer to upper level
Line 5
5-1 L End 36.75 0.12 2 972 1086
V Elem 38.50 7.88 2 886 545 341 Refer to upper level
5-1 R End 36.75 19.12 2 1858 1631 227 STHD10 (6" 2640 0.09
5-2 L End 38.50 19.38 2 1673 3296
V Elem 38.50 21.88 2 522 1400 Refer to upper level
5-2 R End 38.50 22.38 2 751 244 506 Limit With 900 0.56
5-3 L End 36.75 22.63 1 128
5-3 L Op 1 36.75 23.63 1 435
5-3 R Op 1 36.75 26.88 1 358
5-3 R End 36.75 27.13 1 51
5-4 L End 38.50 27.38 2 972 1995
5-4 R End 38.50 46.63 2 972 1995
5-5 L End 36.75 46.88 1 51
5-5 L Op 1 36.75 47.13 1 358
5-5 R Op 1 36.75 50.38 1 460
5-5 R End 36.75 51.63 1 153
5-6 L End 38.50 51.88 2 751 226 525 Limit With 900 0.58
V Elem 38.50 52.13 2 522 1400 Refer to upper level
5-6 R End 38.50 54.88 2 1673 3272
5-7 L End 36.75 55.13 2 1859 1605 254 STHD10 (6" 2640 0.10
V Elem 38.50 66.13 2 887 533 353 Refer to upper level
5-7 R End 36.75 73.88 2 972 1072
Line A
A-1 L End 0.12 0.00 2 4322 106 4216 STHD14 (6" 5150 0.82
A-1 L Op 1 2.88 0.00 2 4322 319 4003 STHD14 (6" 5150 0.78
A-1 R Op 1 9.13 0.00 2 4322 319 4003 STHD14 (6" 5150 0.78
A-1 R End 11.88 0.00 2 4322 106 4216 STHD14 (6" 5150 0.82
A-2 L End 12.13 2.00 2 6232 150 6081 HDU8-SDS2. 7870 0.77
A-2 L Op 1 16.13 2.00 2 6232 363 5869 HDU8-SDS2. 7870 0.75
A-2 R Op 1 22.38 2.00 2 5545 345 5200 HDU8-SDS2. 7870 0.66
A-2 R End 25.88 2.00 2 5545 133 5412 HDU8-SDS2. 7870 0.69
A-3 L End 33.63 0.00 2 4649 115 4534 STHD14 (6" 5150 0.88
A-3 R End 36.63 0.00 2 4649 115 4534 STHD14 (6" 5150 0.88
Line B
V Elem -1.87 6.75 2 4336 290 4046 Refer to upper level
V Elem 1.63 6.75 2 4336 755 3582 Refer to upper level
V Elem 7.88 6.75 2 4874 793 4080 Refer to upper level
V Elem 11.88 6.75 2 4874 749 4125 Refer to upper level
V Elem 26.13 6.75 1 58 Refer to upper level
V Elem 26.63 6.75 1 522 Refer to upper level
V Elem 32.88 6.75 1 522 Refer to upper level
V Elem 33.38 6.75 1 58 Refer to upper level
V Elem 33.63 6.75 2 3800 252 3548 Refer to upper level
7
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
HOLD-DOWN DESIGN (flexible wind design, continued)
V Elem 36.63 6.75 2 3800 252 3548 Refer to upper level
Line C
V Elem 12.13 21.75 2 1853 3124 Refer to upper level
C-2 L End 36.88 19.25 1 619
V Elem 38.38 21.75 2 1853 1853 Refer to upper level
C-2 R End 38.38 19.25 1 3743
Line F
F-2 L End 2.13 36.75 1 5130 5957
V Elem 12.13 36.75 1 968 4102 Refer to upper level
F-1 R End 38.38 36.75 1 6098 14554
Line I
V Elem 12.13 52.25 2 1856 3124 Refer to upper level
I-2 L End 36.88 55.00 1 619
V Elem 38.38 52.25 2 1856 1856 Refer to upper level
I-2 R End 38.38 55.00 1 3743
Line J
V Elem -1.87 66.25 2 4031 290 3741 Refer to upper level
V Elem 1.63 66.25 2 4031 755 3276 Refer to upper level
V Elem 7.88 66.25 2 4530 793 3737 Refer to upper level
V Elem 11.88 66.25 2 4530 329 4202 Refer to upper level
J-1 L End 26.13 66.25 1 116
J-1 L Op 1 26.63 66.25 1 1045
J-1 R Op 1 32.88 66.25 1 1045
J-1 R End 33.38 66.25 1 116
V Elem 33.63 66.25 2 3532 252 3281 Refer to upper level
V Elem 36.63 66.25 2 3532 252 3281 Refer to upper level
Line K
K-1 L End 0.12 74.00 2 4098 106 3992 STHD14 (6" 5150 0.78
K-1 L Op 1 2.88 74.00 2 4098 319 3779 STHD14 (6" 5150 0.73
K-1 R Op 1 9.13 74.00 2 4098 319 3779 STHD14 (6" 5150 0.73
K-1 R End 11.88 74.00 2 4098 106 3992 STHD14 (6" 5150 0.78
K-2 L End 12.13 72.00 2 5928 150 5778 HDU8-SDS2. 7870 0.73
K-2 L Op 1 16.13 72.00 2 5928 363 5566 HDU8-SDS2. 7870 0.71
K-2 R Op 1 22.38 72.00 2 5275 345 4930 HDU8-SDS2. 7870 0.63
K-2 R End 25.88 72.00 2 5275 133 5142 HDU8-SDS2. 7870 0.65
K-3 L End 33.63 74.00 2 4409 115 4294 STHD14 (6" 5150 0.83
K-3 R End 36.63 74.00 2 4409 115 4294 STHD14 (6" 5150 0.83
Level 2 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End -2.00 6.88 2 1064 119 945 MST37 2710 0.35
1-1 R End -2.00 22.63 2 1064 0 1064 MST37 2710 0.39
1-2 L End 2.00 22.88 2 1049 1049 MST37 2710 0.39
1-2 R End 2.00 51.13 2 1049 1049 MST37 2710 0.39
1-3 L End -2.00 51.38 2 1064 1064 MST37 2710 0.39
1-3 R End -2.00 67.12 2 1064 1064 MST37 2710 0.39
Line 2
V Elem 12.00 21.88 2 1159 462 698 Refer to upper level
V Elem 12.00 28.38 2 1159 872 287 Refer to upper level
V Elem 12.00 34.63 2 1175 752 423 Refer to upper level
V Elem 12.00 39.38 2 1175 752 423 Refer to upper level
V Elem 12.00 45.63 2 1159 872 287 Refer to upper level
V Elem 12.00 52.13 2 1159 462 698 Refer to upper level
Line 5
5-1 L End 36.75 7.88 2 886 545 341 MST37 2710 0.13
5-1 R End 36.75 19.12 2 886 545 341 MST37 2710 0.13
5-2 L End 38.50 19.38 2 922 3104
V Elem 38.50 21.88 2 522 1400 Refer to upper level
V Elem 38.50 52.13 2 522 1400 Refer to upper level
5-2 R End 38.50 54.88 2 922 3085
5-3 L End 36.75 55.13 2 887 533 353 MST37 2710 0.13
5-3 R End 36.75 66.13 2 887 533 353 MST37 2710 0.13
Line A
A-1 L End 12.13 2.00 2 269 269 Limit With 900 0.30
A-1 L Op 1 16.13 2.00 2 269 269 Limit With 900 0.30
A-1 R Op 1 22.38 2.00 2 239 239 Limit With 900 0.27
A-1 R End 25.88 2.00 2 239 239 Limit With 900 0.27
Line B
B-1 L End -1.87 6.75 2 4336 290 4046 MST48 4205 0.96
B-1 L Op 1 1.63 6.75 2 4336 755 3582 MST48 4205 0.85
B-1 R Op 1 7.88 6.75 2 4874 793 4080 MST48 4205 0.97
B-1 R End 11.88 6.75 2 4874 749 4125 MST48 4205 0.98
B-2 L End 26.13 7.75 1 58
B-2 L Op 1 26.63 7.75 1 522
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HOLD-DOWN DESIGN (flexible wind design, continued)
B-2 R Op 1 32.88 7.75 1 522
B-2 R End 33.38 7.75 1 58
B-3 L End 33.63 7.75 2 3800 252 3548 MST48 4205 0.84
B-3 R End 36.63 7.75 2 3800 252 3548 MST48 4205 0.84
Line C
V Elem 12.13 21.75 2 1853 3124 Refer to upper level
C-2 L End 36.88 19.25 1 206
V Elem 38.38 21.75 2 1853 1853 Refer to upper level
C-2 R End 38.38 19.25 1 3331
Line F
F-2 L End 2.13 36.75 1 1951 2978
V Elem 12.13 36.75 1 968 4102 Refer to upper level
F-1 R End 38.38 36.75 1 2919 9328
Line I
V Elem 12.13 52.25 2 1856 3124 Refer to upper level
I-2 L End 36.88 55.00 1 206
V Elem 38.38 52.25 2 1856 1856 Refer to upper level
I-2 R End 38.38 55.00 1 3331
Line J
J-1 L End -1.87 67.25 2 4031 290 3741 MST48 4205 0.89
J-1 L Op 1 1.63 67.25 2 4031 755 3276 MST48 4205 0.78
J-1 R Op 1 7.88 67.25 2 4530 793 3737 MST48 4205 0.89
J-1 R End 11.88 67.25 2 4530 329 4202 MST48 4205 1.00
J-2 L End 26.13 66.25 1 58
J-2 L Op 1 26.63 66.25 1 522
J-2 R Op 1 32.88 66.25 1 522
J-2 R End 33.38 66.25 1 58
J-3 L End 33.63 66.25 2 3532 252 3281 MST48 4205 0.78
J-3 R End 36.63 66.25 2 3532 252 3281 MST48 4205 0.78
Line K
K-1 L End 12.13 72.00 2 274 274 Limit With 900 0.30
K-1 L Op 1 16.13 72.00 2 274 274 Limit With 900 0.30
K-1 R Op 1 22.38 72.00 2 244 244 Limit With 900 0.27
K-1 R End 25.88 72.00 2 244 244 Limit With 900 0.27
Level 3 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 2
2-1 L End 12.00 21.88 2 1159 462 698 MST37 2710 0.26
2-1 L Op 1 12.00 28.38 2 1159 872 287 MST37 2710 0.11
2-1 R Op 1 12.00 34.63 2 1175 752 423 MST37 2710 0.16
2-1 L Op 2 12.00 39.38 2 1175 752 423 MST37 2710 0.16
2-1 R Op 2 12.00 45.63 2 1159 872 287 MST37 2710 0.11
2-1 R End 12.00 52.13 2 1159 462 698 MST37 2710 0.26
Line 5
5-1 L End 38.50 21.88 2 522 1400
5-1 R End 38.50 52.13 2 522 1400
Line C
C-1 L End 12.13 21.75 2 1853 3124
C-1 R End 38.38 21.75 2 1853 3124
Line F
F-2 L End 12.13 36.75 1 968 4102
F-1 R End 38.38 36.75 1 968 4102
Line I
I-1 L End 12.13 52.25 2 1856 3124
I-1 R End 38.38 52.25 2 1856 3124
Legend:
Line-Wall:
At wall or opening – Shearline and wall number At vertical element - Shearline
Posit'n - Position of stud that hold-down is attached to:
V Elem - Vertical element: column or strengthened studs required where not at wall end or opening
L or R End - At left or right wall end
L or R Op n - At left or right side of opening n
Location - Co-ordinates in Plan View
Load Case - Results are for critical load case:
ASCE 7 All Heights: Case 1 or 2 from Fig. 27.4-8
ASCE 7 Low-rise: Windward corner(s) and Case A or B from Fig. 28.4-1
ASCE 7 Minimum loads (27.1.5 / 28.4.4)
Hold-down Forces:
Shear – Wind shear overturning component, based on shearline force, factored for ASD by 0.60. For perforated walls, T from SDPWS 4.3-8 is
used.
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Dead – Dead load resisting component, factored for ASD by 0.60
Uplift - Uplift wind load component, factored for ASD by 0.60. For perforated walls, T from SDPWS 4.3-8 is used.
Cmb'd - Sum of ASD factored overturning, dead and uplift forces. May also include the uplift force t for perforated walls from SDPWS 4.3.6.2.1
when openings are staggered.
Hold-down – Device used from hold-down database
Cap – Allowable ASD tension load
Crit. Resp. - Critical Response = Combined ASD force / Allowable ASD tension load
Notes:
Refer to Shear Results table for factor Co, and shearline dimensions table for the sum of Li, used to calculate tension force T for perforated walls
from SDPWS 4.3-9.
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
DRAG STRUT FORCES (flexible wind design)
Level 1 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 1
1-1 Right Opening 1 0.00 8.25 1 769 769
1-1 Left Opening 2 0.00 18.25 1 45 45
1-1 Right Opening 2 0.00 21.25 1 234 234
1-1 Left Opening 3 0.00 26.00 1 153 153
1-3 Right Opening 1 0.00 47.75 1 300 300
1-3 Left Opening 2 0.00 52.50 1 87 87
1-3 Right Opening 2 0.00 55.50 1 192 192
1-3 Left Opening 3 0.00 65.50 1 622 622
Line A
A-1 Left Opening 1 3.00 0.00 1 594 594
A-1 Right Opening 1 9.00 0.00 1 860 860
A-2 Left Opening 1 16.25 2.00 1 1354 1354
A-2 Right Opening 1 22.25 2.00 1 100 100
A-2 Right Wall End 26.00 2.00 1 1055 1055
A-3 Left Wall End 33.50 0.00 1 762 762
Line K
K-1 Left Opening 1 3.00 74.00 1 563 563
K-1 Right Opening 1 9.00 74.00 1 816 816
K-2 Left Opening 1 16.25 72.00 1 1284 1284
K-2 Right Opening 1 22.25 72.00 1 95 95
K-2 Right Wall End 26.00 72.00 1 1000 1000
K-3 Left Wall End 33.50 74.00 1 723 723
Level 2 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 1
1-1 Left Opening 1 -2.00 11.75 1 137 137
1-1 Right Opening 1 -2.00 17.75 1 391 391
1-2 Left Opening 1 2.00 31.50 1 92 92
1-2 Right Opening 1 2.00 34.50 1 135 135
1-2 Left Opening 2 2.00 39.50 1 63 63
1-2 Right Opening 2 2.00 42.50 1 163 163
1-3 Left Opening 1 -2.00 56.25 1 320 320
1-3 Right Opening 1 -2.00 62.25 1 208 208
Line 5
5-2 Left Opening 1 38.50 22.75 1 146 146
5-2 Right Opening 1 38.50 25.75 1 132 132
5-2 Left Opening 2 38.50 48.50 1 72 72
5-2 Right Opening 2 38.50 51.50 1 206 206
Line A
A-1 Left Opening 1 16.25 2.00 1 55 55
A-1 Right Opening 1 22.25 2.00 1 36 36
Line B
B-1 Left Opening 1 1.75 6.75 1 1191 1191
B-1 Right Opening 1 7.75 6.75 1 398 398
B-1 Right Wall End 12.00 6.75 1 2003 2003
Line J
J-1 Left Opening 1 1.75 67.25 1 1107 1107
J-1 Right Opening 1 7.75 67.25 1 370 370
J-1 Right Wall End 12.00 67.25 1 1862 1862
Line K
K-1 Left Opening 1 16.25 72.00 1 56 56
K-1 Right Opening 1 22.25 72.00 1 37 37
Level 3 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 2
2-1 Left Opening 1 12.00 28.50 1 329 329
2-1 Right Opening 1 12.00 34.50 1 122 122
2-1 Left Opening 2 12.00 39.50 1 122 122
2-1 Right Opening 2 12.00 45.50 1 329 329
Line C
C-1 Left Opening 1 17.00 21.75 1 221 221
C-1 Right Opening 1 18.50 21.75 1 18 18
C-1 Left Opening 2 22.25 21.75 1 20 20
C-1 Right Opening 2 23.75 21.75 1 219 219
C-1 Left Opening 3 27.50 21.75 1 181 181
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DRAG STRUT FORCES (flexible wind design, continued)
C-1 Right Opening 3 29.00 21.75 1 420 420
Line I
I-1 Left Opening 1 17.00 52.25 1 221 221
I-1 Right Opening 1 18.50 52.25 1 18 18
I-1 Left Opening 2 22.25 52.25 1 20 20
I-1 Right Opening 2 23.75 52.25 1 219 219
I-1 Left Opening 3 27.50 52.25 1 181 181
I-1 Right Opening 3 29.00 52.25 1 420 420
Legend:
Line-Wall - Shearline and wall number
Position…- Side of opening or wall end that drag strut is attached to
Location - Co-ordinates in Plan View
Load Case - Results are for critical load case:
ASCE 7 All heights Case 1 or 2
ASCE 7 Low-rise corner; Case A or B
Drag strut Force - Axial force in transfer elements at openings and gaps in walls along shearline.
Based on ASD factored shearline force (vmax from 4.3.6.4.1.1 for perforated walls)
-> Due to shearline force in the west-to-east or south-to-north direction
<- Due to shearline force in the east-to-west or north-to-south direction
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Flexible Diaphragm Seismic Design
SEISMIC INFORMATION
Level Mass Area Story Shear [lbs]Diaphragm Force Fpx [lbs]
[lbs][sq.ft]E-W N-S E-W N-S
3 61131 808.3 11608 11608 11608 11608
2 53296 2404.4 6979 6979 8883 8883
1 62439 2576.3 4088 4088 10407 10407
All 176866 - 22675 22675 - -
Legend:
Building mass – Sum of all generated and input building masses on level = wx in ASCE 7 equation 12.8-12.
Storey shear – Total unfactored (strength-level) shear force induced at level x, = Fx in ASCE 7 equation 12.8-11.
Diaphragm force Fpx - Unfactored force intended for diaphragm design from Eqn 12.10-1; used by Shearwalls only for drag strut forces, see
12.10.2.1 Exception 2.
Redundancy Factor p (rho):
E-W 1.00, N-S 1.00
Automatically calculated according to ASCE 7 12.3.4.2.
Vertical Earthquake Load Ev
Ev = 0.2 Sds D; Sds = 0.83; Ev = 0.167 D unfactored; 0.117 D factored; total dead load factor: 0.6 - 0.117 = 0.483 tension, 1.0 + 0.117 = 1.117
compression.
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
SHEAR RESULTS (flexible seismic design)
N-S W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line 1
Level 2
Ln1, Lev2 - Both - - 5573 - - - - - - 9429 -
Wall 1-1 4 Both 120.7 177.3 1207 - 1.0 - 300 0.68 204 2043 0.59
Wall 1-2 4 Both 140.4 177.3 3158 - 1.0 - 300 0.79 237 5344 0.59
Wall 1-3 4 Both 120.7 177.3 1207 - 1.0 - 300 0.68 204 2043 0.59
Level 1
Ln1, Lev1 - Both - - 6919 - - - - - - 9781 -
Wall 1-1 4 Both 175.2 212.2 2584 - 1.0 - 300 0.83 248 3653 0.71
Wall 1-2 4 Both 212.2 212.2 1751 - 1.0 - 300 1.00 300 2475 0.71
Wall 1-3 4 Both 175.2 212.2 2584 - 1.0 - 300 0.83 248 3653 0.71
Line 2
Level 3
Ln2, Lev3 - Both - - 4950 - - - - - - 5550 -
Wall 2-1 4^Both - - 4950 - 1.0 - 300 - - 5550 -
Seg. 1 - Both 267.6 - 1806 - 1.0 - 300 - 300 2025 0.89
Seg. 2 - Both 267.6 - 1338 - 1.0 - 300 - 300 1500 0.89
Seg. 3 - Both 267.6 - 1806 - 1.0 - 300 - 300 2025 0.89
Line 5
Ln5, Lev3 2 Both 104.1 - 3175 - 1.0 - 200 - 200 6100 0.52
Level 2
Ln5, Lev2 - Both - - 7438 - - - - - - 14077 -
Wall 5-1 4 Both 154.1 154.1 1772 - 1.0 - 300 1.00 300 3450 0.51
Wall 5-2 4 Both 139.4 162.6 3932 - 1.0 - 300 0.86 257 7252 0.54
Wall 5-3 4 Both 154.1 154.1 1734 - 1.0 - 300 1.00 300 3375 0.51
Level 1
Ln5, Lev1 - Both - - 8953 - - - - - - 12489 -
Wall 5-1 2^Both 143.4 - 2760 - 1.0 - 200 - 200 3850 0.72
Wall 5-2 2^Both 103.6 - 337 - .72 - 200 - 144 469 0.72
Wall 5-3 2 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 5-4 2^Both 143.4 - 2796 - 1.0 - 200 - 200 3900 0.72
Wall 5-5 2 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 5-6 2^Both 103.6 - 337 - .72 - 200 - 144 469 0.72
Wall 5-7 2^Both 143.4 - 2724 - 1.0 - 200 - 200 3800 0.72
E-W W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line A
Level 2
LnA, Lev2 - Both - - 117 - - - - - - 1428 -
Wall A-1 2 Both - - 117 - 1.0 - 200 - - 1428 -
Seg. 1 - Both 15.5 - 66 - .94 - 189 - 189 803 0.08
Seg. 2 - Both 13.7 - 51 - .83 - 167 - 167 625 0.08
Level 1
LnA, Lev1 - Both - - 3616 - - - - - - 6878 -
Wall A-1 1 Both - - 1072 - 1.0 - 510 - - 2040 -
Seg. 1 - Both 178.7 - 536 - .67 - 340 - 340 1020 0.53
Seg. 2 - Both 178.7 - 536 - .67 - 340 - 340 1020 0.53
Wall A-2 1 Both - - 1914 - 1.0 - 510 - - 3641 -
Seg. 1 - Both 253.2 - 1076 - .94 - 482 - 482 2047 0.53
Seg. 2 - Both 223.4 - 838 - .83 - 425 - 425 1594 0.53
Wall A-3 1 Both 193.6 - 629 - .72 - 510 - 368 1197 0.53
Line B
Level 2
LnB, Lev2 - Both - - 3201 - - - - - - 3700 -
Wall B-1 3 Both - - 2409 - 1.0 - 390 - - 2784 -
Seg. 1 - Both 281.2 - 1054 - .83 - 325 - 325 1219 0.87
Seg. 2 - Both 318.7 - 1354 - .94 - 368 - 368 1565 0.87
Wall B-2 2 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall B-3 3 Both 243.7 - 792 - .72 - 390 - 282 915 0.87
Line C
Level 3
LnC, Lev3 4 Both 147.5 171.9 3062 - 1.0 - 300 0.86 257 5343 0.57
Line F
LnF, Lev3 - Both - - 2014 - - - - - - 10600 -
Wall F-1 2 Both 38.0 - 1007 - 1.0 - 200 - 200 5300 0.19
Wall F-2 2 Both 38.0 - 1007 - 1.0 - 200 - 200 5300 0.19
Level 2
LnF, Lev2 - Both - - 7105 - - - - - - 14600 -
Wall F-1 2 Both 97.3 - 3552 - 1.0 - 200 - 200 7300 0.49
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SHEAR RESULTS (flexible seismic design, continued)
Wall F-2 2 Both 97.3 - 3552 - 1.0 - 200 - 200 7300 0.49
Level 1
LnF, Lev1 - Both - - 9517 - - - - - - 14600 -
Wall F-1 2 Both 130.4 - 4758 - 1.0 - 200 - 200 7300 0.65
Wall F-2 2 Both 130.4 - 4758 - 1.0 - 200 - 200 7300 0.65
Line I
Level 3
LnI, Lev3 4 Both 147.0 171.3 3050 - 1.0 - 300 0.86 257 5343 0.57
Line J
Level 2
LnJ, Lev2 - Both - - 2470 - - - - - - 3700 -
Wall J-1 3 Both - - 1859 - 1.0 - 390 - - 2784 -
Seg. 1 - Both 217.0 - 814 - .83 - 325 - 325 1219 0.67
Seg. 2 - Both 245.9 - 1045 - .94 - 368 - 368 1565 0.67
Wall J-2 2 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall J-3 3 Both 188.1 - 611 - .72 - 390 - 282 915 0.67
Line K
LnK, Lev2 - Both - - 117 - - - - - - 1428 -
Wall K-1 2 Both - - 117 - 1.0 - 200 - - 1428 -
Seg. 1 - Both 15.5 - 66 - .94 - 189 - 189 803 0.08
Seg. 2 - Both 13.7 - 51 - .83 - 167 - 167 625 0.08
Level 1
LnK, Lev1 - Both - - 2740 - - - - - - 6878 -
Wall K-1 1 Both - - 813 - 1.0 - 510 - - 2040 -
Seg. 1 - Both 135.5 - 406 - .67 - 340 - 340 1020 0.40
Seg. 2 - Both 135.5 - 406 - .67 - 340 - 340 1020 0.40
Wall K-2 1 Both - - 1450 - 1.0 - 510 - - 3641 -
Seg. 1 - Both 191.9 - 816 - .94 - 482 - 482 2047 0.40
Seg. 2 - Both 169.3 - 635 - .83 - 425 - 425 1594 0.40
Wall K-3 1 Both 146.7 - 477 - .72 - 510 - 368 1197 0.40
Legend:
W Gp - Wall design group defined in Sheathing and Framing Materials tables, where it shows associated Standard Wall. "^" means that this wall is
critical for all walls in the Standard Wall group.
For Dir – Direction of seismic force along shearline.
v - Design shear force on segment = ASD factored shear force per unit FHS
vmax - Collector shear force for perforated walls as per SDPWS eqn. 4.3-8 = V/FHS/Co. Full height sheathing (FHS) factored for narrow segments
as per 4.3.4.3
V - ASD factored shear force. For shearline: total shearline force. For wall: total of all segments on wall. For segment: force on segment
Asp/Cub – For wall: Unblocked structural wood panel factor Cub from SDPWS 4.3.3.2. For segment: Aspect ratio adjustment from SDPWS
4.3.3.4.1
Int - Unit shear capacity of interior sheathing; Ext - Unit shear capacity of exterior sheathing. For wall: Unfactored. For segment: Include Cub factor
and aspect ratio adjustments.
Co - Adjustment factor for perforated walls from SDPWS Equation 4.3-5.
C - Sheathing combination rule, A = Add capacities, S = Strongest side or twice weakest, G = Stiffness-based using SDPWS 4.3-3.
Cmb - Combined interior and exterior unit shear capacity including perforated wall factor Co.
V – Total factored shear capacity of shearline, wall or segment.
Crit Resp – Response ratio = v/Cmb = design shear force/unit shear capacity. "W" indicates that the wind design criterior was critical in selecting
wall.
Notes:
Refer to Elevation View diagrams for individual level for uplift anchorage force t for perforated walls given by SDPWS 4.3.6.4.2,4.
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
HOLD-DOWN DESIGN (flexible seismic design)
Level 1 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 0.12 127
1-1 I Op 1 0.00 2.13 37 496
V Elem -2.00 6.88 1637 119 23 1541 Refer to upper level
1-1 I Op 1 0.00 8.38 1943 1427 278 1022 STHD10 (6" 2640 0.39
1-1 I Op 2 0.00 18.00 266 266
1-1 I Op 2 0.00 21.25 266 266
V Elem -2.00 22.63 1637 0 1637 Refer to upper level
V Elem -2.00 22.88 1614 1614 Refer to upper level
1-1 R End 0.00 25.88 1943 1340 260 1390 STHD10 (6" 2640 0.53
1-2 I Op 1 0.00 32.00 449 381
1-1 R End 0.00 32.62 42
1-2 L End 2.00 32.88 1970 465 90 1595 STHD10 (6" 2640 0.60
1-2 R End 2.00 40.88 1970 465 90 1595 STHD10 (6" 2640 0.60
1-3 L End 0.00 41.13 42
1-2 I Op 3 0.00 41.50 410 381
1-2 I Op 3 0.00 47.75 1943 1340 260 1385
V Elem -2.00 51.13 1614 1614 Refer to upper level
V Elem -2.00 51.38 1637 1637 Refer to upper level
1-3 I Op 1 0.00 52.25 266 266
1-3 I Op 1 0.00 55.50 266 266
1-3 I Op 2 0.00 65.38 1943 1340 260 1124 STHD10 (6" 2640 0.43
V Elem -2.00 67.12 1637 1637 Refer to upper level
1-3 I Op 2 0.00 71.50 50 479
1-3 R End 0.00 73.88 141
Line 2
V Elem 12.00 21.88 2501 462 90 2129 Refer to upper level
V Elem 12.00 28.38 2501 872 170 1798 Refer to upper level
V Elem 12.00 34.63 2535 752 146 1929 Refer to upper level
V Elem 12.00 39.38 2535 752 146 1929 Refer to upper level
V Elem 12.00 45.63 2501 872 170 1798 Refer to upper level
V Elem 12.00 52.13 2501 462 90 2129 Refer to upper level
Line 5
5-1 L End 36.75 0.12 1307 1086 211 433 STHD10 (6" 2640 0.16
V Elem 38.50 7.88 1418 545 106 979 Refer to upper level
5-1 R End 36.75 19.12 2725 1631 317 1412 STHD10 (6" 2640 0.53
5-2 L End 38.50 19.38 2486 3296
V Elem 38.50 21.88 945 1400 Refer to upper level
5-2 R End 38.50 22.38 1010 244 47 813 Limit With 900 0.90
5-3 L End 36.75 22.63 128
5-3 L Op 1 36.75 23.63 435
5-3 R Op 1 36.75 26.88 358
5-3 R End 36.75 27.13 51
5-4 L End 38.50 27.38 1307 1995
5-4 R End 38.50 46.63 1307 1995
5-5 L End 36.75 46.88 51
5-5 L Op 1 36.75 47.13 358
5-5 R Op 1 36.75 50.38 460
5-5 R End 36.75 51.63 153
5-6 L End 38.50 51.88 1010 226 44 828 Limit With 900 0.92
V Elem 38.50 52.13 945 1400 Refer to upper level
5-6 R End 38.50 54.88 2486 3272
5-7 L End 36.75 55.13 2726 1605 312 1434 STHD10 (6" 2640 0.54
V Elem 38.50 66.13 1419 533 104 989 Refer to upper level
5-7 R End 36.75 73.88 1308 1072 208 444 STHD10 (6" 2640 0.17
Line A
A-1 L End 0.12 0.00 1755 106 21 1669 STHD14 (6" 5150 0.32
A-1 L Op 1 2.88 0.00 1755 319 62 1498 STHD14 (6" 5150 0.29
A-1 R Op 1 9.13 0.00 1755 319 62 1498 STHD14 (6" 5150 0.29
A-1 R End 11.88 0.00 1755 106 21 1669 STHD14 (6" 5150 0.32
A-2 L End 12.13 2.00 2570 150 29 2449 HDU8-SDS2. 7870 0.31
A-2 L Op 1 16.13 2.00 2570 363 71 2278 HDU8-SDS2. 7870 0.29
A-2 R Op 1 22.38 2.00 2287 345 67 2009 HDU8-SDS2. 7870 0.26
A-2 R End 25.88 2.00 2287 133 26 2180 HDU8-SDS2. 7870 0.28
A-3 L End 33.63 0.00 1888 115 22 1795 STHD14 (6" 5150 0.35
A-3 R End 36.63 0.00 1888 115 22 1795 STHD14 (6" 5150 0.35
Line B
V Elem -1.87 6.75 2711 290 56 2478 Refer to upper level
V Elem 1.63 6.75 2711 755 147 2103 Refer to upper level
V Elem 7.88 6.75 3047 793 154 2408 Refer to upper level
V Elem 11.88 6.75 3047 749 146 2444 Refer to upper level
V Elem 26.13 6.75 58 Refer to upper level
16
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
HOLD-DOWN DESIGN (flexible seismic design, continued)
V Elem 26.63 6.75 522 Refer to upper level
V Elem 32.88 6.75 522 Refer to upper level
V Elem 33.38 6.75 58 Refer to upper level
V Elem 33.63 6.75 2376 252 49 2173 Refer to upper level
V Elem 36.63 6.75 2376 252 49 2173 Refer to upper level
Line C
V Elem 12.13 21.75 1565 3124 Refer to upper level
C-2 L End 36.88 19.25 619
V Elem 38.38 21.75 1565 1565 Refer to upper level
C-2 R End 38.38 19.25 3743
Line F
F-2 L End 2.13 36.75 4127 5957
V Elem 12.13 36.75 690 4102 Refer to upper level
F-1 R End 38.38 36.75 4817 14554
Line I
V Elem 12.13 52.25 1559 3124 Refer to upper level
I-2 L End 36.88 55.00 619
V Elem 38.38 52.25 1559 1559 Refer to upper level
I-2 R End 38.38 55.00 3743
Line J
V Elem -1.87 66.25 2093 290 56 1859 Refer to upper level
V Elem 1.63 66.25 2093 755 147 1485 Refer to upper level
V Elem 7.88 66.25 2352 793 154 1713 Refer to upper level
V Elem 11.88 66.25 2352 329 64 2087 Refer to upper level
J-1 L End 26.13 66.25 116
J-1 L Op 1 26.63 66.25 1045
J-1 R Op 1 32.88 66.25 1045
J-1 R End 33.38 66.25 116
V Elem 33.63 66.25 1834 252 49 1631 Refer to upper level
V Elem 36.63 66.25 1834 252 49 1631 Refer to upper level
Line K
K-1 L End 0.12 74.00 1330 106 21 1244 STHD14 (6" 5150 0.24
K-1 L Op 1 2.88 74.00 1330 319 62 1073 STHD14 (6" 5150 0.21
K-1 R Op 1 9.13 74.00 1330 319 62 1073 STHD14 (6" 5150 0.21
K-1 R End 11.88 74.00 1330 106 21 1244 STHD14 (6" 5150 0.24
K-2 L End 12.13 72.00 1984 150 29 1862 HDU8-SDS2. 7870 0.24
K-2 L Op 1 16.13 72.00 1984 363 71 1691 HDU8-SDS2. 7870 0.21
K-2 R Op 1 22.38 72.00 1765 345 67 1487 HDU8-SDS2. 7870 0.19
K-2 R End 25.88 72.00 1765 133 26 1658 HDU8-SDS2. 7870 0.21
K-3 L End 33.63 74.00 1431 115 22 1338 STHD14 (6" 5150 0.26
K-3 R End 36.63 74.00 1431 115 22 1338 STHD14 (6" 5150 0.26
Level 2 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End -2.00 6.88 1637 119 23 1541 MST37 2710 0.57
1-1 R End -2.00 22.63 1637 0 1637 MST37 2710 0.60
1-2 L End 2.00 22.88 1614 1614 MST37 2710 0.60
1-2 R End 2.00 51.13 1614 1614 MST37 2710 0.60
1-3 L End -2.00 51.38 1637 1637 MST37 2710 0.60
1-3 R End -2.00 67.12 1637 1637 MST37 2710 0.60
Line 2
V Elem 12.00 21.88 2501 462 90 2129 Refer to upper level
V Elem 12.00 28.38 2501 872 170 1798 Refer to upper level
V Elem 12.00 34.63 2535 752 146 1929 Refer to upper level
V Elem 12.00 39.38 2535 752 146 1929 Refer to upper level
V Elem 12.00 45.63 2501 872 170 1798 Refer to upper level
V Elem 12.00 52.13 2501 462 90 2129 Refer to upper level
Line 5
5-1 L End 36.75 7.88 1418 545 106 979 MST37 2710 0.36
5-1 R End 36.75 19.12 1418 545 106 979 MST37 2710 0.36
5-2 L End 38.50 19.38 1476 3104
V Elem 38.50 21.88 945 1400 Refer to upper level
V Elem 38.50 52.13 945 1400 Refer to upper level
5-2 R End 38.50 54.88 1476 3085
5-3 L End 36.75 55.13 1419 533 104 989 MST37 2710 0.36
5-3 R End 36.75 66.13 1419 533 104 989 MST37 2710 0.36
Line A
A-1 L End 12.13 2.00 149 149 Limit With 900 0.17
A-1 L Op 1 16.13 2.00 149 149 Limit With 900 0.17
A-1 R Op 1 22.38 2.00 132 132 Limit With 900 0.15
A-1 R End 25.88 2.00 132 132 Limit With 900 0.15
Line B
B-1 L End -1.87 6.75 2711 290 56 2478 MST48 4205 0.59
B-1 L Op 1 1.63 6.75 2711 755 147 2103 MST48 4205 0.50
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HOLD-DOWN DESIGN (flexible seismic design, continued)
B-1 R Op 1 7.88 6.75 3047 793 154 2408 MST48 4205 0.57
B-1 R End 11.88 6.75 3047 749 146 2444 MST48 4205 0.58
B-2 L End 26.13 7.75 58
B-2 L Op 1 26.63 7.75 522
B-2 R Op 1 32.88 7.75 522
B-2 R End 33.38 7.75 58
B-3 L End 33.63 7.75 2376 252 49 2173 MST48 4205 0.52
B-3 R End 36.63 7.75 2376 252 49 2173 MST48 4205 0.52
Line C
V Elem 12.13 21.75 1565 3124 Refer to upper level
C-2 L End 36.88 19.25 206
V Elem 38.38 21.75 1565 1565 Refer to upper level
C-2 R End 38.38 19.25 3331
Line F
F-2 L End 2.13 36.75 1764 2978
V Elem 12.13 36.75 690 4102 Refer to upper level
F-1 R End 38.38 36.75 2454 9328
Line I
V Elem 12.13 52.25 1559 3124 Refer to upper level
I-2 L End 36.88 55.00 206
V Elem 38.38 52.25 1559 1559 Refer to upper level
I-2 R End 38.38 55.00 3331
Line J
J-1 L End -1.87 67.25 2093 290 56 1859 MST48 4205 0.44
J-1 L Op 1 1.63 67.25 2093 755 147 1485 MST48 4205 0.35
J-1 R Op 1 7.88 67.25 2352 793 154 1713 MST48 4205 0.41
J-1 R End 11.88 67.25 2352 329 64 2087 MST48 4205 0.50
J-2 L End 26.13 66.25 58
J-2 L Op 1 26.63 66.25 522
J-2 R Op 1 32.88 66.25 522
J-2 R End 33.38 66.25 58
J-3 L End 33.63 66.25 1834 252 49 1631 MST48 4205 0.39
J-3 R End 36.63 66.25 1834 252 49 1631 MST48 4205 0.39
Line K
K-1 L End 12.13 72.00 149 149 Limit With 900 0.17
K-1 L Op 1 16.13 72.00 149 149 Limit With 900 0.17
K-1 R Op 1 22.38 72.00 132 132 Limit With 900 0.15
K-1 R End 25.88 72.00 132 132 Limit With 900 0.15
Level 3 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 2
2-1 L End 12.00 21.88 2501 462 90 2129 MST37 2710 0.79
2-1 L Op 1 12.00 28.38 2501 872 170 1798 MST37 2710 0.66
2-1 R Op 1 12.00 34.63 2535 752 146 1929 MST37 2710 0.71
2-1 L Op 2 12.00 39.38 2535 752 146 1929 MST37 2710 0.71
2-1 R Op 2 12.00 45.63 2501 872 170 1798 MST37 2710 0.66
2-1 R End 12.00 52.13 2501 462 90 2129 MST37 2710 0.79
Line 5
5-1 L End 38.50 21.88 945 1400
5-1 R End 38.50 52.13 945 1400
Line C
C-1 L End 12.13 21.75 1565 3124
C-1 R End 38.38 21.75 1565 3124
Line F
F-2 L End 12.13 36.75 690 4102
F-1 R End 38.38 36.75 690 4102
Line I
I-1 L End 12.13 52.25 1559 3124
I-1 R End 38.38 52.25 1559 3124
Legend:
Line-Wall:
At wall or opening – Shearline and wall number
At vertical element - Shearline
Posit'n - Position of stud that hold-down is attached to:
V Elem - Vertical element: column or strengthened studs required where not at wall end or opening
L or R End - At left or right wall end
L or R Op n - At left or right side of opening n
Location - Co-ordinates in Plan View
Hold-down Forces:
Shear – Seismic shear overturning component, factored for ASD by 0.7. For perforated walls, T from SDPWS 4.3-8 is used
Dead – Dead load resisting component, factored for ASD by 0.60
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
Ev – Vertical seismic load effect from ASCE 7 12.4.2.2 = -0.2Sds x ASD seismic factor x unfactored D = 0.194 x factored D. Refer to Seismic
Information table for more details.
Cmb'd - Sum of ASD-factored overturning, dead and vertical seismic forces. May also include the uplift force t for perforated walls from SDPWS
4.3.6.2.1 when openings are staggered.
Hold-down – Device used from hold-down database
Cap – Allowable ASD tension load
Crit. Resp. – Critical Response = Combined ASD force/Allowable ASD tension load
Notes:
Shear overturning force is horizontal seismic load effect Eh from ASCE 7 12.4.2.
Uses load combination 8 from ASCE 7 2.4.1 = 0.6D + 0.7 (Eh - Ev).
Anchor bolts must have minimum 0.229" x 3" x 3" steel plate washers, conforming to specifications in SDPWS 4.3.6.4.3 and 4.4.1.6.
Refer to Shear Results table for factor Co, and shearline dimensions table for the sum of Li, used to calculate tension force T for perforated walls
from SDPWS 4.3-9.
Shearwalls does not check for either plan or vertical structural irregularities.
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
DRAG STRUT FORCES (flexible seismic design)
Level 1 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 1
1-1 Right Opening 1 0.00 8.25 934 934
1-1 Left Opening 2 0.00 18.25 55 55
1-1 Right Opening 2 0.00 21.25 285 285
1-1 Left Opening 3 0.00 26.00 185 185
1-3 Right Opening 1 0.00 47.75 364 364
1-3 Left Opening 2 0.00 52.50 106 106
1-3 Right Opening 2 0.00 55.50 234 234
1-3 Left Opening 3 0.00 65.50 756 756
Line A
A-1 Left Opening 1 3.00 0.00 241 241
A-1 Right Opening 1 9.00 0.00 349 349
A-2 Left Opening 1 16.25 2.00 550 550
A-2 Right Opening 1 22.25 2.00 41 41
A-2 Right Wall End 26.00 2.00 428 428
A-3 Left Wall End 33.50 0.00 310 310
Line K
K-1 Left Opening 1 3.00 74.00 183 183
K-1 Right Opening 1 9.00 74.00 265 265
K-2 Left Opening 1 16.25 72.00 417 417
K-2 Right Opening 1 22.25 72.00 31 31
K-2 Right Wall End 26.00 72.00 325 325
K-3 Left Wall End 33.50 74.00 235 235
Level 2 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 1
1-1 Left Opening 1 -2.00 11.75 210 210
1-1 Right Opening 1 -2.00 17.75 602 602
1-2 Left Opening 1 2.00 31.50 142 142
1-2 Right Opening 1 2.00 34.50 207 207
1-2 Left Opening 2 2.00 39.50 98 98
1-2 Right Opening 2 2.00 42.50 251 251
1-3 Left Opening 1 -2.00 56.25 492 492
1-3 Right Opening 1 -2.00 62.25 320 320
Line 5
5-2 Left Opening 1 38.50 22.75 234 234
5-2 Right Opening 1 38.50 25.75 211 211
5-2 Left Opening 2 38.50 48.50 116 116
5-2 Right Opening 2 38.50 51.50 329 329
Line A
A-1 Left Opening 1 16.25 2.00 30 30
A-1 Right Opening 1 22.25 2.00 20 20
Line B
B-1 Left Opening 1 1.75 6.75 745 745
B-1 Right Opening 1 7.75 6.75 249 249
B-1 Right Wall End 12.00 6.75 1252 1252
Line J
J-1 Left Opening 1 1.75 67.25 575 575
J-1 Right Opening 1 7.75 67.25 192 192
J-1 Right Wall End 12.00 67.25 967 967
Line K
K-1 Left Opening 1 16.25 72.00 30 30
K-1 Right Opening 1 22.25 72.00 20 20
Level 3 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 2
2-1 Left Opening 1 12.00 28.50 711 711
2-1 Right Opening 1 12.00 34.50 263 263
2-1 Left Opening 2 12.00 39.50 263 263
2-1 Right Opening 2 12.00 45.50 711 711
Line C
C-1 Left Opening 1 17.00 21.75 187 187
C-1 Right Opening 1 18.50 21.75 15 15
C-1 Left Opening 2 22.25 21.75 17 17
C-1 Right Opening 2 23.75 21.75 185 185
C-1 Left Opening 3 27.50 21.75 152 152
20
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
DRAG STRUT FORCES (flexible seismic design, continued)
C-1 Right Opening 3 29.00 21.75 354 354
Line I
I-1 Left Opening 1 17.00 52.25 186 186
I-1 Right Opening 1 18.50 52.25 15 15
I-1 Left Opening 2 22.25 52.25 17 17
I-1 Right Opening 2 23.75 52.25 184 184
I-1 Left Opening 3 27.50 52.25 152 152
I-1 Right Opening 3 29.00 52.25 353 353
Legend:
Line-Wall - Shearline and wall number
Position…- Side of opening or wall end that drag strut is attached to
Location - Co-ordinates in Plan View
Drag strut Force - Axial force in transfer elements at openings and gaps in walls along shearline.
Based on ASD factored shearline force derived from the greater of:
Diaphragm force Fpx from Eqn. 12.10-1 plus 25% irregularity increase (12.3.3.4)
Storey force Vx from Eqn 12.8-13
For perforated walls, shearline force is vmax from 4.3.6.4.1.1. Includes redundancy factor rho.
-> Due to shearline force in the west-to-east or south-to-north direction
<- Due to shearline force in the east-to-west or north-to-south direction
21
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WoodWorks® Shearwalls Wyndstone Lateral.wsw Oct. 3, 2019 15:54:37
22
Page 27 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral - Center.wsw Oct. 4, 2019 15:50:44
0'15'30'45'60'75'
0'
15'
30'
45'
60'
75'
90'
H-2
8-6A-41-1A-1 2-1B-1
3-1A-2
B-24-15-1A-3
B-3
6-17-18-18-2C-4
C-38-38-4D-2
F-2 8-58-7G-4
G-3
I-4
7-2I-1
2-2H-1
I-2
H-3
I-3
3-24-45-26-21-31-2C-1
C-21-71-6G-1
G-2
1-51-4D-1
F-1
E-2E-1
4-24-3Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 1 of 3
Page 28 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral - Center.wsw Oct. 4, 2019 15:50:44
0'15'30'45'60'75'
0'
15'
30'
45'
60'
75'
90'
H-2
8-6A-41-1A-1 2-1B-1
3-1A-2
B-24-15-1A-3
B-3
6-17-18-18-2C-4
C-38-38-4D-2
F-2 8-58-7G-4
G-3
I-4
7-2I-1
2-2H-1
I-2
H-3
I-3
3-24-45-26-21-31-2C-1
C-21-71-6G-1
G-2
1-51-4D-1
F-1
E-2E-14-34-2Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 2 of 3
Page 29 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral - Center.wsw Oct. 4, 2019 15:50:44
0'15'30'45'60'75'
0'
15'
30'
45'
60'
75'
90'
H-2
8-6A-41-1A-1 2-1B-1
3-1A-2
B-24-15-1A-3
B-3
6-17-18-18-2C-4
C-38-38-4D-2
F-2 8-58-7G-4
G-3
I-4
7-2I-1
2-2H-1
I-2
H-3
I-3
3-24-45-26-21-31-2C-1
C-21-71-6G-1
G-2
1-51-4D-1
F-1
E-2E-14-34-2Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 3 of 3
Page 30 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1
Wyndstone Lateral - Center.wsw Oct. 30, 2019 10:28:10
Project Information
COMPANY AND PROJECT INFORMATION
Company Project
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
DESIGN SETTINGS
Design Code
IBC 2015/AWC SDPWS 2015
Wind Standard
ASCE 7-10 Directional (All heights)
Seismic Standard
ASCE 7-10
Load Combinations
For Design (ASD)
0.70 Seismic + 0.60 Dead
0.60 Wind + 0.60 Dead
For Deflection (Strength)
1.00 Seismic + 0.90 Dead
1.00 Wind + 0.90 Dead
Building Code Capacity Modification
Wind Seismic
1.00 1.00
Service Conditions and Load Duration
Duration
Factor
-
Temperature
Range
-
Moisture Content
Fabrication Service
15% <=19% 10% <=19%
Max Shearwall Offset [ft]
Plan
(within story)
4.00
Elevation
(between stories)
0.00
Maximum Height-to-width Ratio
Wood panels
Wind Seismic
Fiberboard Lumber
Wind Seismic
Gypsum
Blocked Unblocked
3.5 3.5 - - - - -
Ignore non-wood-panel shear resistance contribution...
Wind Seismic
when comb'd w/ wood panels Always
Collector forces based on...
Hold-downs Applied loads
Drag struts Applied loads
Shearwall Relative Rigidity: Wall capacity
Perforated shearwall Co factor: SDPWS Equation 4.3-5
Non-identical materials and construction on the shearline: Allowed, except for material type
Deflection Equation: 3-term from SDPWS 4.2-1
Drift limit for wind design: 1 / 500 story height
SITE INFORMATION
Risk Category Category II - All others
Wind
ASCE 7-10 Directional (All heights)
Seismic
ASCE 7-10 12.8 Equivalent Lateral Force Procedure
Design Wind Speed 110 mph
Exposure Exposure B
Enclosure Enclosed
Structure Type Regular
Building System Bearing Wall
Design Category D
Site Class D
Topographic Information [ft]
Shape
-
Height
-
Length
-
Site Location: -
Elev: 0ft Avg Air density: 0.0765 lb/cu ft
Rigid building - Static analysis
Spectral Response Acceleration
S1: 0.500g Ss: 1.250g
Fundamental Period E-W N-S
T Used 0.286s 0.286s
Approximate Ta 0.286s 0.286s
Maximum T 0.400s 0.400s
Response Factor R 6.50 6.50
Fa: 1.00 Fv: 1.50 Case 2 N-S loadsE-W loads
Eccentricity (%)15 15
Loaded at 75%
Min Wind Loads: Walls
Roofs
16 psf
8 psf
Serviceability Wind Speed 85 mph
1
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WoodWorks® Shearwalls Wyndstone Lateral - Center.wsw Oct. 30, 2019
10:28:10
Structural Data
STORY INFORMATION
Hold-down
Story Floor/Ceiling Wall Length subject to Bolt
Elev [ft]Depth [in]Height [ft]shrinkage [in]length [in]
Ceiling 30.67 0.0
Level 3 21.67 10.0 9.00 13.8 14.5
Level 2 11.83 10.0 9.00 13.8 14.5
Level 1 2.00 0.0 9.00 3.8 4.5
Foundation 2.00
SHEATHING MATERIALS by WALL GROUP
Sheathing Fasteners Apply
Grp Surf Material Ratng Thick GU Ply Or Gvtv Size Type Df Eg Fd Bk Notes
in in lbs/in in in
1 Ext Struct Sh OSB 24/16 7/16 -3 Vert 83500 8d Nail N 2 12 Y 2,3
2 Ext Struct Sh OSB 24/0 3/8 - 3 Vert 77500 6d Nail N 2 12 Y 2
3 Ext Struct Sh OSB 24/0 3/8 - 3 Vert 77500 6d Nail N 4 12 Y
4 Ext Struct Sh OSB 24/0 3/8 -3 Vert 77500 6d Nail N 6 12 Y
Legend:
Grp – Wall Design Group number, used to reference wall in other tables
Surf – Exterior or interior surface when applied to exterior wall
Ratng – Span rating, see SDPWS Table C4.2.2.2C
Thick – Nominal panel thickness
GU - Gypsum underlay thickness
Ply – Number of plies (or layers) in construction of plywood sheets
Or – Orientation of longer dimension of sheathing panels
Gvtv – Shear stiffness in lb/in. of depth from SDPWS Tables C4.2.2A-B
Type – Fastener type from SDPWS Tables 4.3A-D: Nail – common wire nail for structural panels and lumber, cooler or gypsum wallboard nail for
GWB, plasterboard nail for gypsum lath, galvanised nail for gypsum sheathing; Box - box nail; Casing – casing nail; Roof – roofing nail; Screw –
drywall screw
Size - Common, box, and casing nails: refer to SDPWS Table A1 (casing sizes = box sizes).
Gauges: 11 ga = 0.120” x 1-3/4” (gypsum sheathing, 25/32” fiberboard ), 1-1/2” (lath & plaster, 1/2” fiberboard); 13 ga plasterboard = 0.92” x 1-
1/8”.
Cooler or gypsum wallboard nail: 5d = .086” x 1-5/8”; 6d = .092” x 1-7/8”; 8d = .113” x 2-3/8”; 6/8d = 6d base ply, 8d face ply for 2-ply GWB.
Drywall screws: No. 6, 1-1/4” long.
5/8” gypsum sheathing can also use 6d cooler or GWB nail
Df – Deformed nails ( threaded or spiral), with increased withdrawal capacity
Eg – Panel edge fastener spacing
Fd – Field spacing interior to panels
Bk – Sheathing is nailed to blocking at all panel edges; Y(es) or N(o)
Apply Notes – Notes below table legend which apply to sheathing side
Notes:
2. Framing at adjoining panel edges must be 3" nominal or wider with staggered nailing according to SDPWS 4.3.7.1.4
3. Shear capacity for current design has been increased to the value for 15/32" sheathing with same nailing because stud spacing is 16" max. or
panel orientation is horizontal. See SDPWS T4.3A Note 2.
FRAMING MATERIALS and STANDARD WALL by WALL GROUP
Wall Species Grade b d Spcg SG E Standard Wall
Grp in in in psi^6
1 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
2 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
3 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
4 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
Legend:
Wall Grp – Wall Design Group
b – Stud breadth (thickness)
d – Stud depth (width)
Spcg – Maximum on-centre spacing of studs for design, actual spacing may be less.
SG – Specific gravity
E – Modulus of elasticity
Standard Wall - Standard wall designed as group.
Notes:
Check manufacture requirements for stud size, grade and specific gravity (G) for all shearwall hold-downs.
2
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Loads
DEAD LOADS (for hold-down calculations)
Shear Level Profile Tributary Location [ft]Mag [lbs,psf,psi]
Line Width [ft] Start End Start End
A 3 Line 0.00 61.00 393.0
E 3 Line -1.00 62.00 393.0
E 3 Line -1.00 62.00 393.0
I 3 Line 0.00 61.00 393.0
1 3 Line -2.00 72.00 138.0
8 3 Line -2.00 72.00 138.0
A 2 Line 0.00 61.00 118.0
A 2 Line 0.00 61.00 393.0
E 2 Line -1.00 62.00 393.0
E 2 Line -1.00 62.00 393.0
I 2 Line 0.00 61.00 393.0
I 2 Line 0.00 61.00 118.0
1 2 Line -2.00 72.00 138.0
1 2 Line -2.00 72.00 168.0
8 2 Line -2.00 72.00 138.0
8 2 Line -2.00 72.00 168.0
A 1 Line 0.00 61.00 393.0
A 1 Line 0.00 61.00 118.0
A 1 Line 0.00 3.50 200.0
A 1 Line 0.00 61.00 118.0
A 1 Line 57.50 61.00 200.0
E 1 Line -1.00 62.00 393.0
E 1 Line -1.00 62.00 393.0
I 1 Line 0.00 61.00 118.0
I 1 Line 0.00 61.00 393.0
I 1 Line 0.00 3.50 200.0
I 1 Line 0.00 61.00 118.0
I 1 Line 57.50 61.00 200.0
1 1 Line -2.00 72.00 138.0
1 1 Line -2.00 72.00 168.0
1 1 Line -2.00 72.00 168.0
8 1 Line -2.00 72.00 168.0
8 1 Line -2.00 72.00 168.0
8 1 Line -2.00 72.00 138.0
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Design Summary
SHEARWALL DESIGN
Wind Shear Loads, Flexible Diaphragm
All shearwalls have sufficient design capacity.
Seismic Loads, Flexible Diaphragm
All shearwalls have sufficient design capacity.
HOLDDOWN DESIGN
Wind Loads, Flexible Diaphragm
All hold-downs have sufficient design capacity.
Seismic Loads, Flexible Diaphragm
All hold-downs have sufficient design capacity.
This Design Summary does not include failures that occur due to excessive story drift from ASCE 7 CC1.2 (wind) or 12.12 (seismic).
Refer to Story Drift table in this report to verify this design criterion.
Refer to the Deflection table for possible issues regarding fastener slippage (SDPWS Table C4.2.2D).
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Flexible Diaphragm Wind Design
ASCE 7 Directional (All Heights) Loads
SHEAR RESULTS
N-S W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line 1
Level 3
Ln1, Lev3 - Both - - 3780 - - - - - - 16170 -
Wall 1-1 4 Both 65.5 - 1244 - 1.0 - 280 - 280 5320 0.23
Wall 1-3 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 1-4 4 Both 65.5 - 1276 - 1.0 - 280 - 280 5460 0.23
Wall 1-5 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 1-7 4 Both 65.5 - 1260 - 1.0 - 280 - 280 5390 0.23
Level 2
Ln1, Lev2 - Both - - 7549 - - - - - - 16170 -
Wall 1-1 4 Both 130.7 - 2484 - 1.0 - 280 - 280 5320 0.47
Wall 1-3 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 1-4 4 Both 130.7 - 2549 - 1.0 - 280 - 280 5460 0.47
Wall 1-5 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 1-7 4 Both 130.7 - 2516 - 1.0 - 280 - 280 5390 0.47
Level 1
Ln1, Lev1 - Both - - 11112 - - - - - - 24255 -
Wall 1-1 3 Both 192.4 - 3656 - 1.0 - 420 - 420 7980 0.46
Wall 1-3 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 1-4 3 Both 192.4 - 3752 - 1.0 - 420 - 420 8190 0.46
Wall 1-5 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 1-7 3 Both 192.4 - 3704 - 1.0 - 420 - 420 8085 0.46
Line 8
Level 3
Ln8, Lev3 - Both - - 3780 - - - - - - 16170 -
Wall 8-1 4 Both 65.5 - 1244 - 1.0 - 280 - 280 5320 0.23
Wall 8-3 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 8-4 4 Both 65.5 - 1276 - 1.0 - 280 - 280 5460 0.23
Wall 8-5 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 8-7 4 Both 65.5 - 1260 - 1.0 - 280 - 280 5390 0.23
Level 2
Ln8, Lev2 - Both - - 7549 - - - - - - 16170 -
Wall 8-1 4 Both 130.7 - 2484 - 1.0 - 280 - 280 5320 0.47
Wall 8-3 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 8-4 4 Both 130.7 - 2549 - 1.0 - 280 - 280 5460 0.47
Wall 8-5 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 8-7 4 Both 130.7 - 2516 - 1.0 - 280 - 280 5390 0.47
Level 1
Ln8, Lev1 - Both - - 11113 - - - - - - 24255 -
Wall 8-1 3 Both 192.4 - 3656 - 1.0 - 420 - 420 7980 0.46
Wall 8-3 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 8-4 3 Both 192.4 - 3752 - 1.0 - 420 - 420 8190 0.46
Wall 8-5 4 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 8-7 3 Both 192.4 - 3704 - 1.0 - 420 - 420 8085 0.46
E-W W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line A
Level 3
LnA, Lev3 - Both - - 3554 - - - - - - 6344 -
Wall A-1 3 Both 169.5 - 593 - .78 - 420 - 327 1143 0.52
Wall A-2 3 Both 166.5 245.1 1184 - 1.0 - 420 0.68 285 2029 0.58
Wall A-3 3 Both 166.5 245.1 1184 - 1.0 - 420 0.68 285 2029 0.58
Wall A-4 3 Both 169.5 - 593 - .78 - 420 - 327 1143 0.52
Level 2
LnA, Lev2 - Both - - 8011 - - - - - - 10785 -
Wall A-1 2^Both 382.0 - 1337 - .78 - 714 - 555 1944 0.69
Wall A-2 2^Both 375.3 552.5 2669 - 1.0 - 714 0.68 485 3449 0.77
Wall A-3 2^Both 375.3 552.5 2669 - 1.0 - 714 0.68 485 3449 0.77
Wall A-4 2^Both 382.0 - 1337 - .78 - 714 - 555 1944 0.69
Level 1
LnA, Lev1 - Both - - 12232 - - - - - - 13534 -
Wall A-1 1^Both 583.2 - 2041 - .78 - 896 - 697 2439 0.84
Wall A-2 1^Both 573.0 843.6 4075 - 1.0 - 896 0.68 609! 4328 0.94
Wall A-3 1^Both 573.0 843.6 4075 - 1.0 - 896 0.68 609! 4328 0.94
Wall A-4 1^Both 583.2 - 2041 - .78 - 896 - 697 2439 0.84
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SHEAR RESULTS (flexible wind design, continued)
Line E
Level 3
LnE, Lev3 - Both - - 5810 - - - - - - 35280 -
Wall E-1 4 Both 46.1 - 2905 - 1.0 - 280 - 280 17640 0.16
Wall E-2 4 Both 46.1 - 2905 - 1.0 - 280 - 280 17640 0.16
Level 2
LnE, Lev2 - Both - - 10191 - - - - - - 35280 -
Wall E-1 4 Both 80.9 - 5096 - 1.0 - 280 - 280 17640 0.29
Wall E-2 4 Both 80.9 - 5096 - 1.0 - 280 - 280 17640 0.29
Level 1
LnE, Lev1 - Both - - 14340 - - - - - - 35280 -
Wall E-1 4 Both 113.8 - 7170 - 1.0 - 280 - 280 17640 0.41
Wall E-2 4 Both 113.8 - 7170 - 1.0 - 280 - 280 17640 0.41
Line I
Level 3
LnI, Lev3 - Both - - 3554 - - - - - - 6344 -
Wall I-1 3 Both 169.5 - 593 - .78 - 420 - 327 1143 0.52
Wall I-2 3 Both 166.5 245.1 1184 - 1.0 - 420 0.68 285 2029 0.58
Wall I-3 3 Both 166.5 245.1 1184 - 1.0 - 420 0.68 285 2029 0.58
Wall I-4 3 Both 169.5 - 593 - .78 - 420 - 327 1143 0.52
Level 2
LnI, Lev2 - Both - - 8011 - - - - - - 10785 -
Wall I-1 2^Both 382.0 - 1337 - .78 - 714 - 555 1944 0.69
Wall I-2 2^Both 375.3 552.5 2669 - 1.0 - 714 0.68 485 3449 0.77
Wall I-3 2^Both 375.3 552.5 2669 - 1.0 - 714 0.68 485 3449 0.77
Wall I-4 2^Both 382.0 - 1337 - .78 - 714 - 555 1944 0.69
Level 1
LnI, Lev1 - Both - - 12232 - - - - - - 13534 -
Wall I-1 1^Both 583.2 - 2041 - .78 - 896 - 697 2439 0.84
Wall I-2 1^Both 573.0 843.6 4075 - 1.0 - 896 0.68 609! 4328 0.94
Wall I-3 1^Both 573.0 843.6 4075 - 1.0 - 896 0.68 609! 4328 0.94
Wall I-4 1^Both 583.2 - 2041 - .78 - 896 - 697 2439 0.84
Legend:
W Gp - Wall design group defined in Sheathing and Framing Materials tables, where it shows associated Standard Wall. "^" means that this wall is
critical for all walls in the Standard Wall group.
For Dir - Direction of wind force along shearline.
v - Design shear force on segment = ASD factored shear force per unit FHS
vmax - Collector shear force for perforated walls as per SDPWS eqn. 4.3-8 = V/FHS/Co. Full height sheathing (FHS) factored for narrow segments
as per 4.3.4.3
V - ASD factored shear force. For shearline: total shearline force. For wall: total of all segments on wall. For segment: force on segment
Asp/Cub – For wall: Unblocked structural wood panel factor Cub from SDPWS 4.3.3.2. For segment: Aspect ratio adjustment from SDPWS
4.3.3.4.1
Int - Unit shear capacity of interior sheathing; Ext - Unit shear capacity of exterior sheathing. For wall: Unfactored. For segment: Include Cub factor
and aspect ratio adjustments.
Co - Adjustment factor for perforated walls from SDPWS Equation 4.3-5.
C - Sheathing combination rule, A = Add capacities, S = Strongest side or twice weakest, G = Stiffness-based using SDPWS 4.3-3.
Cmb - Combined interior and exterior unit shear capacity including perforated wall factor Co.
V – Total factored shear capacity of shearline, wall or segment.
Crit Resp – Response ratio = v/Cmb = design shear force/unit shear capacity. "S" indicates that the wind design criterior was critical in selecting
wall.
! Shear capacity of each side of perforated shearwall, or of both sides combined, is limited to 1217.5 plf, as per AWC SDPWS 4.3.5.3-3.
Notes:
Refer to Elevation View diagrams for individual level for uplift anchorage force t for perforated walls given by SDPWS 4.3.6.4.2,4.
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HOLD-DOWN DESIGN (flexible wind design)
Level 1 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 -1.87 1 3544 5233
1-1 R End 0.00 16.88 1 3544 5233
1-2 L End -1.00 17.13 1 964
1-2 R End -1.00 20.37 1 964
1-3 L End 0.00 20.63 1 344
1-3 L Op 1 0.00 21.63 1 1170
1-3 R Op 1 0.00 24.88 1 964
1-3 R End 0.00 25.13 1 138
1-4 L End -1.00 25.38 1 3543 5370
1-4 R End -1.00 44.63 1 3543 5370
1-5 L End 0.00 44.88 1 207
1-5 L Op 1 0.00 45.38 1 1033
1-5 R Op 1 0.00 48.63 1 1170
1-5 R End 0.00 49.63 1 344
1-6 L End -1.00 49.88 1 826
1-6 R End -1.00 52.63 1 826
1-7 L End 0.00 52.88 1 3543 5301
1-7 R End 0.00 71.88 1 3543 5301
Line 8
8-1 L End 61.00 -1.87 1 3544 5233
8-1 R End 61.00 16.88 1 3544 5233
8-2 L End 62.00 17.13 1 895
8-2 R End 62.00 20.13 1 895
8-3 L End 61.00 20.37 1 344
8-3 L Op 1 61.00 21.38 1 1170
8-3 R Op 1 61.00 24.63 1 1033
8-3 R End 61.00 25.13 1 207
8-4 L End 62.00 25.38 1 3543 5370
8-4 R End 62.00 44.63 1 3543 5370
8-5 L End 61.00 44.88 1 207
8-5 L Op 1 61.00 45.38 1 1033
8-5 R Op 1 61.00 48.63 1 1170
8-5 R End 61.00 49.63 1 344
8-6 L End 62.00 49.88 1 826
8-6 R End 62.00 52.63 1 826
8-7 L End 61.00 52.88 1 3543 5301
8-7 R End 61.00 71.88 1 3543 5301
Line A
A-1 L End 0.12 -2.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
A-1 R End 3.38 -2.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
A-2 L End 11.13 0.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
A-2 R End 24.88 0.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
A-3 L End 36.13 0.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
A-3 R End 49.88 0.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
A-4 L End 57.63 -2.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
A-4 R End 60.88 -2.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
Line E
E-2 L End -0.87 34.75 1 4352 89132
E-1 R End 61.88 34.75 1 4352 89132
Line I
I-1 L End 0.12 72.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
I-1 R End 3.38 72.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
I-2 L End 11.13 70.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
I-2 R End 24.88 70.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
I-3 L End 36.13 70.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
I-3 R End 49.88 70.00 2 15247 6439 8808 HDQ8-SDS3 9230 0.95
I-4 L End 57.63 72.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
I-4 R End 60.88 72.00 2 10997 1820 9178 HDQ8-SDS3 9230 0.99
Level 2 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 -1.87 1 1789 2531
1-1 R End 0.00 16.88 1 1789 2531
1-2 L End -1.00 17.13 1 466
1-2 R End -1.00 20.37 1 466
1-3 L End 0.00 20.63 1 167
1-3 L Op 1 0.00 21.63 1 566
1-3 R Op 1 0.00 24.88 1 466
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HOLD-DOWN DESIGN (flexible wind design, continued)
1-3 R End 0.00 25.13 1 67
1-4 L End -1.00 25.38 1 1788 2597
1-4 R End -1.00 44.63 1 1788 2597
1-5 L End 0.00 44.88 1 100
1-5 L Op 1 0.00 45.38 1 500
1-5 R Op 1 0.00 48.63 1 566
1-5 R End 0.00 49.63 1 167
1-6 L End -1.00 49.88 1 400
1-6 R End -1.00 52.63 1 400
1-7 L End 0.00 52.88 1 1789 2564
1-7 R End 0.00 71.88 1 1789 2564
Line 8
8-1 L End 61.00 -1.87 1 1789 2531
8-1 R End 61.00 16.88 1 1789 2531
8-2 L End 62.00 17.13 1 433
8-2 R End 62.00 20.13 1 433
8-3 L End 61.00 20.37 1 167
8-3 L Op 1 61.00 21.38 1 566
8-3 R Op 1 61.00 24.63 1 500
8-3 R End 61.00 25.13 1 100
8-4 L End 62.00 25.38 1 1788 2597
8-4 R End 62.00 44.63 1 1788 2597
8-5 L End 61.00 44.88 1 100
8-5 L Op 1 61.00 45.38 1 500
8-5 R Op 1 61.00 48.63 1 566
8-5 R End 61.00 49.63 1 167
8-6 L End 62.00 49.88 1 400
8-6 R End 62.00 52.63 1 400
8-7 L End 61.00 52.88 1 1789 2564
8-7 R End 61.00 71.88 1 1789 2564
Line A
A-1 L End 0.12 -2.00 2 5345 949 4395 MST60 6235 0.70
A-1 R End 3.38 -2.00 2 5345 949 4395 MST60 6235 0.70
A-2 L End 11.13 0.00 2 7410 3797 3613 MST60 6235 0.58
A-2 R End 24.88 0.00 2 7410 3797 3613 MST60 6235 0.58
A-3 L End 36.13 0.00 2 7410 3797 3613 MST60 6235 0.58
A-3 R End 49.88 0.00 2 7410 3797 3613 MST60 6235 0.58
A-4 L End 57.63 -2.00 2 5345 949 4395 MST60 6235 0.70
A-4 R End 60.88 -2.00 2 5345 949 4395 MST60 6235 0.70
Line E
E-2 L End -0.87 34.75 1 2295 59422
E-1 R End 61.88 34.75 1 2295 59422
Line I
I-1 L End 0.12 72.00 2 5345 949 4395 MST60 6235 0.70
I-1 R End 3.38 72.00 2 5345 949 4395 MST60 6235 0.70
I-2 L End 11.13 70.00 2 7410 3797 3613 MST60 6235 0.58
I-2 R End 24.88 70.00 2 7410 3797 3613 MST60 6235 0.58
I-3 L End 36.13 70.00 2 7410 3797 3613 MST60 6235 0.58
I-3 R End 49.88 70.00 2 7410 3797 3613 MST60 6235 0.58
I-4 L End 57.63 72.00 2 5345 949 4395 MST60 6235 0.70
I-4 R End 60.88 72.00 2 5345 949 4395 MST60 6235 0.70
Level 3 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 -1.87 1 597 787
1-1 R End 0.00 16.88 1 597 787
1-2 L End -1.00 17.13 1 145
1-2 R End -1.00 20.37 1 145
1-3 L End 0.00 20.63 1 52
1-3 L Op 1 0.00 21.63 1 176
1-3 R Op 1 0.00 24.88 1 145
1-3 R End 0.00 25.13 1 21
1-4 L End -1.00 25.38 1 597 807
1-4 R End -1.00 44.63 1 597 807
1-5 L End 0.00 44.88 1 31
1-5 L Op 1 0.00 45.38 1 155
1-5 R Op 1 0.00 48.63 1 176
1-5 R End 0.00 49.63 1 52
1-6 L End -1.00 49.88 1 124
1-6 R End -1.00 52.63 1 124
1-7 L End 0.00 52.88 1 597 797
1-7 R End 0.00 71.88 1 597 797
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HOLD-DOWN DESIGN (flexible wind design, continued)
Line 8
8-1 L End 61.00 -1.87 1 597 787
8-1 R End 61.00 16.88 1 597 787
8-2 L End 62.00 17.13 1 135
8-2 R End 62.00 20.13 1 135
8-3 L End 61.00 20.37 1 52
8-3 L Op 1 61.00 21.38 1 176
8-3 R Op 1 61.00 24.63 1 155
8-3 R End 61.00 25.13 1 31
8-4 L End 62.00 25.38 1 597 807
8-4 R End 62.00 44.63 1 597 807
8-5 L End 61.00 44.88 1 31
8-5 L Op 1 61.00 45.38 1 155
8-5 R Op 1 61.00 48.63 1 176
8-5 R End 61.00 49.63 1 52
8-6 L End 62.00 49.88 1 124
8-6 R End 62.00 52.63 1 124
8-7 L End 61.00 52.88 1 597 797
8-7 R End 61.00 71.88 1 597 797
Line A
A-1 L End 0.12 -2.00 2 1642 413 1230 MST37 2710 0.45
A-1 R End 3.38 -2.00 2 1642 413 1230 MST37 2710 0.45
A-2 L End 11.13 0.00 2 2277 1651 626 MST37 2710 0.23
A-2 R End 24.88 0.00 2 2277 1651 626 MST37 2710 0.23
A-3 L End 36.13 0.00 2 2277 1651 626 MST37 2710 0.23
A-3 R End 49.88 0.00 2 2277 1651 626 MST37 2710 0.23
A-4 L End 57.63 -2.00 2 1642 413 1230 MST37 2710 0.45
A-4 R End 60.88 -2.00 2 1642 413 1230 MST37 2710 0.45
Line E
E-2 L End -0.87 34.75 1 833 29711
E-1 R End 61.88 34.75 1 833 29711
Line I
I-1 L End 0.12 72.00 2 1642 413 1230 MST37 2710 0.45
I-1 R End 3.38 72.00 2 1642 413 1230 MST37 2710 0.45
I-2 L End 11.13 70.00 2 2277 1651 626 MST37 2710 0.23
I-2 R End 24.88 70.00 2 2277 1651 626 MST37 2710 0.23
I-3 L End 36.13 70.00 2 2277 1651 626 MST37 2710 0.23
I-3 R End 49.88 70.00 2 2277 1651 626 MST37 2710 0.23
I-4 L End 57.63 72.00 2 1642 413 1230 MST37 2710 0.45
I-4 R End 60.88 72.00 2 1642 413 1230 MST37 2710 0.45
Legend:
Line-Wall:
At wall or opening – Shearline and wall number At vertical element - Shearline
Posit'n - Position of stud that hold-down is attached to:
V Elem - Vertical element: column or strengthened studs required where not at wall end or opening
L or R End - At left or right wall end
L or R Op n - At left or right side of opening n
Location - Co-ordinates in Plan View
Load Case - Results are for critical load case:
ASCE 7 All Heights: Case 1 or 2 from Fig. 27.4-8
ASCE 7 Low-rise: Windward corner(s) and Case A or B from Fig. 28.4-1
ASCE 7 Minimum loads (27.1.5 / 28.4.4)
Hold-down Forces:
Shear – Wind shear overturning component, based on shearline force, factored for ASD by 0.60. For perforated walls, T from SDPWS 4.3-8 is
used.
Dead – Dead load resisting component, factored for ASD by 0.60
Uplift - Uplift wind load component, factored for ASD by 0.60. For perforated walls, T from SDPWS 4.3-8 is used.
Cmb'd - Sum of ASD factored overturning, dead and uplift forces. May also include the uplift force t for perforated walls from SDPWS 4.3.6.2.1
when openings are staggered.
Hold-down – Device used from hold-down database
Cap – Allowable ASD tension load
Crit. Resp. - Critical Response = Combined ASD force / Allowable ASD tension load
Notes:
Refer to Shear Results table for factor Co, and shearline dimensions table for the sum of Li, used to calculate tension force T for perforated walls
from SDPWS 4.3-9.
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DRAG STRUT FORCES (flexible wind design)
Level 1 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 1
1-1 Right Wall End 0.00 17.00 1 803 803
1-7 Left Wall End 0.00 52.75 1 813 813
Line 8
8-1 Right Wall End 61.00 17.00 1 803 803
8-7 Left Wall End 61.00 52.75 1 813 813
Line A
A-1 Right Wall End 3.50 -2.00 1 1339 1339
A-2 Left Wall End 11.00 0.00 1 164 164
A-2 Left Opening 1 15.00 0.00 1 2033 2033
A-2 Right Opening 1 21.00 0.00 1 830 830
A-2 Right Wall End 25.00 0.00 1 3027 3027
A-3 Left Wall End 36.00 0.00 1 821 821
A-3 Left Opening 1 40.00 0.00 1 3019 3019
A-3 Right Opening 1 46.00 0.00 1 1815 1815
A-3 Right Wall End 50.00 0.00 1 4013 4013
A-4 Left Wall End 57.50 -2.00 1 2509 2509
Line I
I-1 Right Wall End 3.50 72.00 1 1339 1339
I-2 Left Wall End 11.00 70.00 1 164 164
I-2 Left Opening 1 15.00 70.00 1 2033 2033
I-2 Right Opening 1 21.00 70.00 1 830 830
I-2 Right Wall End 25.00 70.00 1 3027 3027
I-3 Left Wall End 36.00 70.00 1 821 821
I-3 Left Opening 1 40.00 70.00 1 3019 3019
I-3 Right Opening 1 46.00 70.00 1 1815 1815
I-3 Right Wall End 50.00 70.00 1 4013 4013
I-4 Left Wall End 57.50 72.00 1 2509 2509
Level 2 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 1
1-1 Right Wall End 0.00 17.00 1 545 545
1-7 Left Wall End 0.00 52.75 1 553 553
Line 8
8-1 Right Wall End 61.00 17.00 1 545 545
8-7 Left Wall End 61.00 52.75 1 553 553
Line A
A-1 Right Wall End 3.50 -2.00 1 877 877
A-2 Left Wall End 11.00 0.00 1 108 108
A-2 Left Opening 1 15.00 0.00 1 1331 1331
A-2 Right Opening 1 21.00 0.00 1 543 543
A-2 Right Wall End 25.00 0.00 1 1982 1982
A-3 Left Wall End 36.00 0.00 1 538 538
A-3 Left Opening 1 40.00 0.00 1 1977 1977
A-3 Right Opening 1 46.00 0.00 1 1189 1189
A-3 Right Wall End 50.00 0.00 1 2628 2628
A-4 Left Wall End 57.50 -2.00 1 1643 1643
Line I
I-1 Right Wall End 3.50 72.00 1 877 877
I-2 Left Wall End 11.00 70.00 1 108 108
I-2 Left Opening 1 15.00 70.00 1 1331 1331
I-2 Right Opening 1 21.00 70.00 1 543 543
I-2 Right Wall End 25.00 70.00 1 1982 1982
I-3 Left Wall End 36.00 70.00 1 538 538
I-3 Left Opening 1 40.00 70.00 1 1977 1977
I-3 Right Opening 1 46.00 70.00 1 1189 1189
I-3 Right Wall End 50.00 70.00 1 2628 2628
I-4 Left Wall End 57.50 72.00 1 1643 1643
Level 3 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 1
1-1 Right Wall End 0.00 17.00 1 273 273
1-7 Left Wall End 0.00 52.75 1 277 277
Line 8
8-1 Right Wall End 61.00 17.00 1 273 273
8-7 Left Wall End 61.00 52.75 1 277 277
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DRAG STRUT FORCES (flexible wind design, continued)
Line A
A-1 Right Wall End 3.50 -2.00 1 389 389
A-2 Left Wall End 11.00 0.00 1 48 48
A-2 Left Opening 1 15.00 0.00 1 591 591
A-2 Right Opening 1 21.00 0.00 1 241 241
A-2 Right Wall End 25.00 0.00 1 880 880
A-3 Left Wall End 36.00 0.00 1 239 239
A-3 Left Opening 1 40.00 0.00 1 877 877
A-3 Right Opening 1 46.00 0.00 1 527 527
A-3 Right Wall End 50.00 0.00 1 1166 1166
A-4 Left Wall End 57.50 -2.00 1 729 729
Line I
I-1 Right Wall End 3.50 72.00 1 389 389
I-2 Left Wall End 11.00 70.00 1 48 48
I-2 Left Opening 1 15.00 70.00 1 591 591
I-2 Right Opening 1 21.00 70.00 1 241 241
I-2 Right Wall End 25.00 70.00 1 880 880
I-3 Left Wall End 36.00 70.00 1 239 239
I-3 Left Opening 1 40.00 70.00 1 877 877
I-3 Right Opening 1 46.00 70.00 1 527 527
I-3 Right Wall End 50.00 70.00 1 1166 1166
I-4 Left Wall End 57.50 72.00 1 729 729
Legend:
Line-Wall - Shearline and wall number
Position…- Side of opening or wall end that drag strut is attached to
Location - Co-ordinates in Plan View
Load Case - Results are for critical load case:
ASCE 7 All heights Case 1 or 2
ASCE 7 Low-rise corner; Case A or B
Drag strut Force - Axial force in transfer elements at openings and gaps in walls along shearline.
Based on ASD factored shearline force (vmax from 4.3.6.4.1.1 for perforated walls)
-> Due to shearline force in the west-to-east or south-to-north direction
<- Due to shearline force in the east-to-west or north-to-south direction
11
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Flexible Diaphragm Seismic Design
SEISMIC INFORMATION
Level Mass Area Story Shear [lbs]Diaphragm Force Fpx [lbs]
[lbs][sq.ft]E-W N-S E-W N-S
3 103773 4111.3 18959 18959 18959 18959
2 82666 4111.3 10361 10361 13778 13778
1 82666 4111.3 5181 5181 13778 13778
All 269104 - 34500 34500 - -
Legend:
Building mass – Sum of all generated and input building masses on level = wx in ASCE 7 equation 12.8-12.
Storey shear – Total unfactored (strength-level) shear force induced at level x, = Fx in ASCE 7 equation 12.8-11.
Diaphragm force Fpx - Unfactored force intended for diaphragm design from Eqn 12.10-1; used by Shearwalls only for drag strut forces, see
12.10.2.1 Exception 2.
Redundancy Factor p (rho):
E-W 1.00, N-S 1.00
Automatically calculated according to ASCE 7 12.3.4.2.
Vertical Earthquake Load Ev
Ev = 0.2 Sds D; Sds = 0.83; Ev = 0.167 D unfactored; 0.117 D factored; total dead load factor: 0.6 - 0.117 = 0.483 tension, 1.0 + 0.117 = 1.117
compression.
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SHEAR RESULTS (flexible seismic design)
N-S W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line 1
Level 3
Ln1, Lev3 - Both - - 6655 - - - - - - 11550 -
Wall 1-1 4 Both 115.2 - 2190 - 1.0 - 200 - 200 3800 0.58
Wall 1-3 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 1-4 4 Both 115.2 - 2247 - 1.0 - 200 - 200 3900 0.58
Wall 1-5 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 1-7 4 Both 115.2 - 2218 - 1.0 - 200 - 200 3850 0.58
Level 2
Ln1, Lev2 - Both - - 10308 - - - - - - 11550 -
Wall 1-1 4^Both 178.5 - 3392 - 1.0 - 200 - 200 3800 0.89
Wall 1-3 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 1-4 4^Both 178.5 - 3481 - 1.0 - 200 - 200 3900 0.89
Wall 1-5 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 1-7 4^Both 178.5 - 3436 - 1.0 - 200 - 200 3850 0.89
Level 1
Ln1, Lev1 - Both - - 12135 - - - - - - 17325 -
Wall 1-1 3 Both 210.1 - 3992 - 1.0 - 300 - 300 5700 0.70
Wall 1-3 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 1-4 3 Both 210.1 - 4098 - 1.0 - 300 - 300 5850 0.70
Wall 1-5 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 1-7 3 Both 210.1 - 4045 - 1.0 - 300 - 300 5775 0.70
Line 8
Level 3
Ln8, Lev3 - Both - - 6616 - - - - - - 11550 -
Wall 8-1 4 Both 114.6 - 2177 - 1.0 - 200 - 200 3800 0.57
Wall 8-3 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 8-4 4 Both 114.6 - 2234 - 1.0 - 200 - 200 3900 0.57
Wall 8-5 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 8-7 4 Both 114.6 - 2205 - 1.0 - 200 - 200 3850 0.57
Level 2
Ln8, Lev2 - Both - - 10216 - - - - - - 11550 -
Wall 8-1 4 Both 176.9 - 3361 - 1.0 - 200 - 200 3800 0.88
Wall 8-3 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 8-4 4 Both 176.9 - 3449 - 1.0 - 200 - 200 3900 0.88
Wall 8-5 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 8-7 4 Both 176.9 - 3405 - 1.0 - 200 - 200 3850 0.88
Level 1
Ln8, Lev1 - Both - - 12015 - - - - - - 17325 -
Wall 8-1 3 Both 208.1 - 3953 - 1.0 - 300 - 300 5700 0.69
Wall 8-3 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 8-4 3 Both 208.1 - 4057 - 1.0 - 300 - 300 5850 0.69
Wall 8-5 4 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 8-7 3 Both 208.1 - 4005 - 1.0 - 300 - 300 5775 0.69
E-W W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line A
Level 3
LnA, Lev3 - Both - - 3521 - - - - - - 4531 -
Wall A-1 3^Both 167.9 - 588 - .78 - 300 - 233 817 0.72
Wall A-2 3^Both 164.9 242.8 1173 - 1.0 - 300 0.68 204 1449 0.81
Wall A-3 3^Both 164.9 242.8 1173 - 1.0 - 300 0.68 204 1449 0.81
Wall A-4 3^Both 167.9 - 588 - .78 - 300 - 233 817 0.72
Level 2
LnA, Lev2 - Both - - 5454 - - - - - - 7703 -
Wall A-1 2 Both 260.0 - 910 - .78 - 510 - 397 1388 0.66
Wall A-2 2 Both 255.5 376.1 1817 - 1.0 - 510 0.68 346 2463 0.74
Wall A-3 2 Both 255.5 376.1 1817 - 1.0 - 510 0.68 346 2463 0.74
Wall A-4 2 Both 260.0 - 910 - .78 - 510 - 397 1388 0.66
Level 1
LnA, Lev1 - Both - - 6420 - - - - - - 9667 -
Wall A-1 1 Both 306.1 - 1071 - .78 - 640 - 498 1742 0.61
Wall A-2 1 Both 300.8 442.8 2139 - 1.0 - 640 0.68 435! 3091 0.69
Wall A-3 1 Both 300.8 442.8 2139 - 1.0 - 640 0.68 435! 3091 0.69
Wall A-4 1 Both 306.1 - 1071 - .78 - 640 - 498 1742 0.61
Line E
Level 3
LnE, Lev3 - Both - - 6230 - - - - - - 25200 -
Wall E-1 4 Both 49.4 - 3115 - 1.0 - 200 - 200 12600 0.25
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SHEAR RESULTS (flexible seismic design, continued)
Wall E-2 4 Both 49.4 - 3115 - 1.0 - 200 - 200 12600 0.25
Level 2
LnE, Lev2 - Both - - 9617 - - - - - - 25200 -
Wall E-1 4 Both 76.3 - 4808 - 1.0 - 200 - 200 12600 0.38
Wall E-2 4 Both 76.3 - 4808 - 1.0 - 200 - 200 12600 0.38
Level 1
LnE, Lev1 - Both - - 11310 - - - - - - 25200 -
Wall E-1 4 Both 89.8 - 5655 - 1.0 - 200 - 200 12600 0.45
Wall E-2 4 Both 89.8 - 5655 - 1.0 - 200 - 200 12600 0.45
Line I
Level 3
LnI, Lev3 - Both - - 3521 - - - - - - 4531 -
Wall I-1 3^Both 167.9 - 588 - .78 - 300 - 233 817 0.72
Wall I-2 3^Both 164.9 242.8 1173 - 1.0 - 300 0.68 204 1449 0.81
Wall I-3 3^Both 164.9 242.8 1173 - 1.0 - 300 0.68 204 1449 0.81
Wall I-4 3^Both 167.9 - 588 - .78 - 300 - 233 817 0.72
Level 2
LnI, Lev2 - Both - - 5453 - - - - - - 7703 -
Wall I-1 2 Both 260.0 - 910 - .78 - 510 - 397 1388 0.66
Wall I-2 2 Both 255.5 376.1 1817 - 1.0 - 510 0.68 346 2463 0.74
Wall I-3 2 Both 255.5 376.1 1817 - 1.0 - 510 0.68 346 2463 0.74
Wall I-4 2 Both 260.0 - 910 - .78 - 510 - 397 1388 0.66
Level 1
LnI, Lev1 - Both - - 6420 - - - - - - 9667 -
Wall I-1 1 Both 306.1 - 1071 - .78 - 640 - 498 1742 0.61
Wall I-2 1 Both 300.7 442.7 2139 - 1.0 - 640 0.68 435! 3091 0.69
Wall I-3 1 Both 300.7 442.7 2139 - 1.0 - 640 0.68 435! 3091 0.69
Wall I-4 1 Both 306.1 - 1071 - .78 - 640 - 498 1742 0.61
Legend:
W Gp - Wall design group defined in Sheathing and Framing Materials tables, where it shows associated Standard Wall. "^" means that this wall is
critical for all walls in the Standard Wall group.
For Dir – Direction of seismic force along shearline.
v - Design shear force on segment = ASD factored shear force per unit FHS
vmax - Collector shear force for perforated walls as per SDPWS eqn. 4.3-8 = V/FHS/Co. Full height sheathing (FHS) factored for narrow segments
as per 4.3.4.3
V - ASD factored shear force. For shearline: total shearline force. For wall: total of all segments on wall. For segment: force on segment
Asp/Cub – For wall: Unblocked structural wood panel factor Cub from SDPWS 4.3.3.2. For segment: Aspect ratio adjustment from SDPWS
4.3.3.4.1
Int - Unit shear capacity of interior sheathing; Ext - Unit shear capacity of exterior sheathing. For wall: Unfactored. For segment: Include Cub factor
and aspect ratio adjustments.
Co - Adjustment factor for perforated walls from SDPWS Equation 4.3-5.
C - Sheathing combination rule, A = Add capacities, S = Strongest side or twice weakest, G = Stiffness-based using SDPWS 4.3-3.
Cmb - Combined interior and exterior unit shear capacity including perforated wall factor Co.
V – Total factored shear capacity of shearline, wall or segment.
Crit Resp – Response ratio = v/Cmb = design shear force/unit shear capacity. "W" indicates that the wind design criterior was critical in selecting
wall.
! Shear capacity of each side of perforated shearwall limited to 870 plf, as per AWC SDPWS 4.3.5.3-3.
Notes:
Refer to Elevation View diagrams for individual level for uplift anchorage force t for perforated walls given by SDPWS 4.3.6.4.2,4.
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HOLD-DOWN DESIGN (flexible seismic design)
Level 1 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 -1.87 4595 5233 1017 380 Limit With 900 0.42
1-1 R End 0.00 16.88 4595 5233 1017 380 Limit With 900 0.42
1-2 L End -1.00 17.13 964
1-2 R End -1.00 20.37 964
1-3 L End 0.00 20.63 344
1-3 L Op 1 0.00 21.63 1170
1-3 R Op 1 0.00 24.88 964
1-3 R End 0.00 25.13 138
1-4 L End -1.00 25.38 4594 5370 1044 268 Limit With 900 0.30
1-4 R End -1.00 44.63 4594 5370 1044 268 Limit With 900 0.30
1-5 L End 0.00 44.88 207
1-5 L Op 1 0.00 45.38 1033
1-5 R Op 1 0.00 48.63 1170
1-5 R End 0.00 49.63 344
1-6 L End -1.00 49.88 826
1-6 R End -1.00 52.63 826
1-7 L End 0.00 52.88 4595 5301 1031 324 Limit With 900 0.36
1-7 R End 0.00 71.88 4595 5301 1031 324 Limit With 900 0.36
Line 8
8-1 L End 61.00 -1.87 4556 5233 1017 340 Limit With 900 0.38
8-1 R End 61.00 16.88 4556 5233 1017 340 Limit With 900 0.38
8-2 L End 62.00 17.13 895
8-2 R End 62.00 20.13 895
8-3 L End 61.00 20.37 344
8-3 L Op 1 61.00 21.38 1170
8-3 R Op 1 61.00 24.63 1033
8-3 R End 61.00 25.13 207
8-4 L End 62.00 25.38 4554 5370 1044 228 Limit With 900 0.25
8-4 R End 62.00 44.63 4554 5370 1044 228 Limit With 900 0.25
8-5 L End 61.00 44.88 207
8-5 L Op 1 61.00 45.38 1033
8-5 R Op 1 61.00 48.63 1170
8-5 R End 61.00 49.63 344
8-6 L End 62.00 49.88 826
8-6 R End 62.00 52.63 826
8-7 L End 61.00 52.88 4555 5301 1031 284 Limit With 900 0.32
8-7 R End 61.00 71.88 4555 5301 1031 284 Limit With 900 0.32
Line A
A-1 L End 0.12 -2.00 7114 1820 354 5649 HDQ8-SDS3 9230 0.61
A-1 R End 3.38 -2.00 7114 1820 354 5649 HDQ8-SDS3 9230 0.61
A-2 L End 11.13 0.00 9864 6439 1252 4677 HDQ8-SDS3 9230 0.51
A-2 R End 24.88 0.00 9864 6439 1252 4677 HDQ8-SDS3 9230 0.51
A-3 L End 36.13 0.00 9864 6439 1252 4677 HDQ8-SDS3 9230 0.51
A-3 R End 49.88 0.00 9864 6439 1252 4677 HDQ8-SDS3 9230 0.51
A-4 L End 57.63 -2.00 7114 1820 354 5649 HDQ8-SDS3 9230 0.61
A-4 R End 60.88 -2.00 7114 1820 354 5649 HDQ8-SDS3 9230 0.61
Line E
E-2 L End -0.87 34.75 3895 89132
E-1 R End 61.88 34.75 3895 89132
Line I
I-1 L End 0.12 72.00 7114 1820 354 5648 HDQ8-SDS3 9230 0.61
I-1 R End 3.38 72.00 7114 1820 354 5648 HDQ8-SDS3 9230 0.61
I-2 L End 11.13 70.00 9863 6439 1252 4676 HDQ8-SDS3 9230 0.51
I-2 R End 24.88 70.00 9863 6439 1252 4676 HDQ8-SDS3 9230 0.51
I-3 L End 36.13 70.00 9863 6439 1252 4676 HDQ8-SDS3 9230 0.51
I-3 R End 49.88 70.00 9863 6439 1252 4676 HDQ8-SDS3 9230 0.51
I-4 L End 57.63 72.00 7114 1820 354 5648 HDQ8-SDS3 9230 0.61
I-4 R End 60.88 72.00 7114 1820 354 5648 HDQ8-SDS3 9230 0.61
Level 2 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 -1.87 2679 2531 492 640 Limit With 900 0.71
1-1 R End 0.00 16.88 2679 2531 492 640 Limit With 900 0.71
1-2 L End -1.00 17.13 466
1-2 R End -1.00 20.37 466
1-3 L End 0.00 20.63 167
1-3 L Op 1 0.00 21.63 566
1-3 R Op 1 0.00 24.88 466
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HOLD-DOWN DESIGN (flexible seismic design, continued)
1-3 R End 0.00 25.13 67
1-4 L End -1.00 25.38 2678 2597 505 586 Limit With 900 0.65
1-4 R End -1.00 44.63 2678 2597 505 586 Limit With 900 0.65
1-5 L End 0.00 44.88 100
1-5 L Op 1 0.00 45.38 500
1-5 R Op 1 0.00 48.63 566
1-5 R End 0.00 49.63 167
1-6 L End -1.00 49.88 400
1-6 R End -1.00 52.63 400
1-7 L End 0.00 52.88 2678 2564 499 613 Limit With 900 0.68
1-7 R End 0.00 71.88 2678 2564 499 613 Limit With 900 0.68
Line 8
8-1 L End 61.00 -1.87 2658 2531 492 619 Limit With 900 0.69
8-1 R End 61.00 16.88 2658 2531 492 619 Limit With 900 0.69
8-2 L End 62.00 17.13 433
8-2 R End 62.00 20.13 433
8-3 L End 61.00 20.37 167
8-3 L Op 1 61.00 21.38 566
8-3 R Op 1 61.00 24.63 500
8-3 R End 61.00 25.13 100
8-4 L End 62.00 25.38 2657 2597 505 565 Limit With 900 0.63
8-4 R End 62.00 44.63 2657 2597 505 565 Limit With 900 0.63
8-5 L End 61.00 44.88 100
8-5 L Op 1 61.00 45.38 500
8-5 R Op 1 61.00 48.63 566
8-5 R End 61.00 49.63 167
8-6 L End 62.00 49.88 400
8-6 R End 62.00 52.63 400
8-7 L End 61.00 52.88 2658 2564 499 592 Limit With 900 0.66
8-7 R End 61.00 71.88 2658 2564 499 592 Limit With 900 0.66
Line A
A-1 L End 0.12 -2.00 4147 949 185 3383 MST60 6235 0.54
A-1 R End 3.38 -2.00 4147 949 185 3383 MST60 6235 0.54
A-2 L End 11.13 0.00 5750 3797 738 2692 MST60 6235 0.43
A-2 R End 24.88 0.00 5750 3797 738 2692 MST60 6235 0.43
A-3 L End 36.13 0.00 5750 3797 738 2692 MST60 6235 0.43
A-3 R End 49.88 0.00 5750 3797 738 2692 MST60 6235 0.43
A-4 L End 57.63 -2.00 4147 949 185 3383 MST60 6235 0.54
A-4 R End 60.88 -2.00 4147 949 185 3383 MST60 6235 0.54
Line E
E-2 L End -0.87 34.75 2273 59422
E-1 R End 61.88 34.75 2273 59422
Line I
I-1 L End 0.12 72.00 4147 949 185 3383 MST60 6235 0.54
I-1 R End 3.38 72.00 4147 949 185 3383 MST60 6235 0.54
I-2 L End 11.13 70.00 5750 3797 738 2691 MST60 6235 0.43
I-2 R End 24.88 70.00 5750 3797 738 2691 MST60 6235 0.43
I-3 L End 36.13 70.00 5750 3797 738 2691 MST60 6235 0.43
I-3 R End 49.88 70.00 5750 3797 738 2691 MST60 6235 0.43
I-4 L End 57.63 72.00 4147 949 185 3383 MST60 6235 0.54
I-4 R End 60.88 72.00 4147 949 185 3383 MST60 6235 0.54
Level 3 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 -1.87 1051 787 153 417 Limit With 900 0.46
1-1 R End 0.00 16.88 1051 787 153 417 Limit With 900 0.46
1-2 L End -1.00 17.13 145
1-2 R End -1.00 20.37 145
1-3 L End 0.00 20.63 52
1-3 L Op 1 0.00 21.63 176
1-3 R Op 1 0.00 24.88 145
1-3 R End 0.00 25.13 21
1-4 L End -1.00 25.38 1051 807 157 400 Limit With 900 0.44
1-4 R End -1.00 44.63 1051 807 157 400 Limit With 900 0.44
1-5 L End 0.00 44.88 31
1-5 L Op 1 0.00 45.38 155
1-5 R Op 1 0.00 48.63 176
1-5 R End 0.00 49.63 52
1-6 L End -1.00 49.88 124
1-6 R End -1.00 52.63 124
1-7 L End 0.00 52.88 1051 797 155 409 Limit With 900 0.45
1-7 R End 0.00 71.88 1051 797 155 409 Limit With 900 0.45
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HOLD-DOWN DESIGN (flexible seismic design, continued)
Line 8
8-1 L End 61.00 -1.87 1045 787 153 411 Limit With 900 0.46
8-1 R End 61.00 16.88 1045 787 153 411 Limit With 900 0.46
8-2 L End 62.00 17.13 135
8-2 R End 62.00 20.13 135
8-3 L End 61.00 20.37 52
8-3 L Op 1 61.00 21.38 176
8-3 R Op 1 61.00 24.63 155
8-3 R End 61.00 25.13 31
8-4 L End 62.00 25.38 1044 807 157 394 Limit With 900 0.44
8-4 R End 62.00 44.63 1044 807 157 394 Limit With 900 0.44
8-5 L End 61.00 44.88 31
8-5 L Op 1 61.00 45.38 155
8-5 R Op 1 61.00 48.63 176
8-5 R End 61.00 49.63 52
8-6 L End 62.00 49.88 124
8-6 R End 62.00 52.63 124
8-7 L End 61.00 52.88 1045 797 155 403 Limit With 900 0.45
8-7 R End 61.00 71.88 1045 797 155 403 Limit With 900 0.45
Line A
A-1 L End 0.12 -2.00 1627 413 80 1295 MST37 2710 0.48
A-1 R End 3.38 -2.00 1627 413 80 1295 MST37 2710 0.48
A-2 L End 11.13 0.00 2256 1651 321 926 MST37 2710 0.34
A-2 R End 24.88 0.00 2256 1651 321 926 MST37 2710 0.34
A-3 L End 36.13 0.00 2256 1651 321 926 MST37 2710 0.34
A-3 R End 49.88 0.00 2256 1651 321 926 MST37 2710 0.34
A-4 L End 57.63 -2.00 1627 413 80 1295 MST37 2710 0.48
A-4 R End 60.88 -2.00 1627 413 80 1295 MST37 2710 0.48
Line E
E-2 L End -0.87 34.75 894 29711
E-1 R End 61.88 34.75 894 29711
Line I
I-1 L End 0.12 72.00 1627 413 80 1295 MST37 2710 0.48
I-1 R End 3.38 72.00 1627 413 80 1295 MST37 2710 0.48
I-2 L End 11.13 70.00 2256 1651 321 926 MST37 2710 0.34
I-2 R End 24.88 70.00 2256 1651 321 926 MST37 2710 0.34
I-3 L End 36.13 70.00 2256 1651 321 926 MST37 2710 0.34
I-3 R End 49.88 70.00 2256 1651 321 926 MST37 2710 0.34
I-4 L End 57.63 72.00 1627 413 80 1295 MST37 2710 0.48
I-4 R End 60.88 72.00 1627 413 80 1295 MST37 2710 0.48
Legend:
Line-Wall:
At wall or opening – Shearline and wall number
At vertical element - Shearline
Posit'n - Position of stud that hold-down is attached to:
V Elem - Vertical element: column or strengthened studs required where not at wall end or opening
L or R End - At left or right wall end
L or R Op n - At left or right side of opening n
Location - Co-ordinates in Plan View
Hold-down Forces:
Shear – Seismic shear overturning component, factored for ASD by 0.7. For perforated walls, T from SDPWS 4.3-8 is used
Dead – Dead load resisting component, factored for ASD by 0.60
Ev – Vertical seismic load effect from ASCE 7 12.4.2.2 = -0.2Sds x ASD seismic factor x unfactored D = 0.194 x factored D. Refer to Seismic
Information table for more details.
Cmb'd - Sum of ASD-factored overturning, dead and vertical seismic forces. May also include the uplift force t for perforated walls from SDPWS
4.3.6.2.1 when openings are staggered.
Hold-down – Device used from hold-down database
Cap – Allowable ASD tension load
Crit. Resp. – Critical Response = Combined ASD force/Allowable ASD tension load
Notes:
Shear overturning force is horizontal seismic load effect Eh from ASCE 7 12.4.2.
Uses load combination 8 from ASCE 7 2.4.1 = 0.6D + 0.7 (Eh - Ev).
Anchor bolts must have minimum 0.229" x 3" x 3" steel plate washers, conforming to specifications in SDPWS 4.3.6.4.3 and 4.4.1.6.
Refer to Shear Results table for factor Co, and shearline dimensions table for the sum of Li, used to calculate tension force T for perforated walls
from SDPWS 4.3-9.
Shearwalls does not check for either plan or vertical structural irregularities.
17
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DRAG STRUT FORCES (flexible seismic design)
Level 1 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 1
1-1 Right Wall End 0.00 17.00 877 877
1-7 Left Wall End 0.00 52.75 888 888
Line 8
8-1 Right Wall End 61.00 17.00 868 868
8-7 Left Wall End 61.00 52.75 879 879
Line A
A-1 Right Wall End 3.50 -2.00 703 703
A-2 Left Wall End 11.00 0.00 86 86
A-2 Left Opening 1 15.00 0.00 1067 1067
A-2 Right Opening 1 21.00 0.00 435 435
A-2 Right Wall End 25.00 0.00 1589 1589
A-3 Left Wall End 36.00 0.00 431 431
A-3 Left Opening 1 40.00 0.00 1584 1584
A-3 Right Opening 1 46.00 0.00 953 953
A-3 Right Wall End 50.00 0.00 2106 2106
A-4 Left Wall End 57.50 -2.00 1317 1317
Line I
I-1 Right Wall End 3.50 72.00 703 703
I-2 Left Wall End 11.00 70.00 86 86
I-2 Left Opening 1 15.00 70.00 1067 1067
I-2 Right Opening 1 21.00 70.00 435 435
I-2 Right Wall End 25.00 70.00 1589 1589
I-3 Left Wall End 36.00 70.00 431 431
I-3 Left Opening 1 40.00 70.00 1584 1584
I-3 Right Opening 1 46.00 70.00 953 953
I-3 Right Wall End 50.00 70.00 2106 2106
I-4 Left Wall End 57.50 72.00 1317 1317
Level 2 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 1
1-1 Right Wall End 0.00 17.00 745 745
1-7 Left Wall End 0.00 52.75 755 755
Line 8
8-1 Right Wall End 61.00 17.00 738 738
8-7 Left Wall End 61.00 52.75 748 748
Line A
A-1 Right Wall End 3.50 -2.00 597 597
A-2 Left Wall End 11.00 0.00 73 73
A-2 Left Opening 1 15.00 0.00 906 906
A-2 Right Opening 1 21.00 0.00 370 370
A-2 Right Wall End 25.00 0.00 1350 1350
A-3 Left Wall End 36.00 0.00 366 366
A-3 Left Opening 1 40.00 0.00 1346 1346
A-3 Right Opening 1 46.00 0.00 809 809
A-3 Right Wall End 50.00 0.00 1789 1789
A-4 Left Wall End 57.50 -2.00 1119 1119
Line I
I-1 Right Wall End 3.50 72.00 597 597
I-2 Left Wall End 11.00 70.00 73 73
I-2 Left Opening 1 15.00 70.00 906 906
I-2 Right Opening 1 21.00 70.00 370 370
I-2 Right Wall End 25.00 70.00 1350 1350
I-3 Left Wall End 36.00 70.00 366 366
I-3 Left Opening 1 40.00 70.00 1346 1346
I-3 Right Opening 1 46.00 70.00 809 809
I-3 Right Wall End 50.00 70.00 1789 1789
I-4 Left Wall End 57.50 72.00 1119 1119
Level 3 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 1
1-1 Right Wall End 0.00 17.00 481 481
1-7 Left Wall End 0.00 52.75 487 487
Line 8
8-1 Right Wall End 61.00 17.00 478 478
8-7 Left Wall End 61.00 52.75 484 484
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DRAG STRUT FORCES (flexible seismic design, continued)
Line A
A-1 Right Wall End 3.50 -2.00 386 386
A-2 Left Wall End 11.00 0.00 47 47
A-2 Left Opening 1 15.00 0.00 585 585
A-2 Right Opening 1 21.00 0.00 239 239
A-2 Right Wall End 25.00 0.00 871 871
A-3 Left Wall End 36.00 0.00 236 236
A-3 Left Opening 1 40.00 0.00 869 869
A-3 Right Opening 1 46.00 0.00 523 523
A-3 Right Wall End 50.00 0.00 1155 1155
A-4 Left Wall End 57.50 -2.00 722 722
Line I
I-1 Right Wall End 3.50 72.00 386 386
I-2 Left Wall End 11.00 70.00 47 47
I-2 Left Opening 1 15.00 70.00 585 585
I-2 Right Opening 1 21.00 70.00 239 239
I-2 Right Wall End 25.00 70.00 871 871
I-3 Left Wall End 36.00 70.00 236 236
I-3 Left Opening 1 40.00 70.00 869 869
I-3 Right Opening 1 46.00 70.00 523 523
I-3 Right Wall End 50.00 70.00 1155 1155
I-4 Left Wall End 57.50 72.00 722 722
Legend:
Line-Wall - Shearline and wall number
Position…- Side of opening or wall end that drag strut is attached to
Location - Co-ordinates in Plan View
Drag strut Force - Axial force in transfer elements at openings and gaps in walls along shearline.
Based on ASD factored shearline force derived from the greater of:
Diaphragm force Fpx from Eqn. 12.10-1 plus 25% irregularity increase (12.3.3.4)
Storey force Vx from Eqn 12.8-13
For perforated walls, shearline force is vmax from 4.3.6.4.1.1. Includes redundancy factor rho.
-> Due to shearline force in the west-to-east or south-to-north direction
<- Due to shearline force in the east-to-west or north-to-south direction
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20
Page 50 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral - Office.wsw Nov. 6, 2019 10:50:29
0'15'30'45'60'
0'
15'
30'
45'
60'
75'
90'
F-1
4-1A-31-2A-1
A-21-12-1A-43-1F-3
F-21-32-2F-43-24-34-2C-1
D-1
E-1
Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 1 of 2
Page 51 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1Wyndstone Lateral - Office.wsw Nov. 6, 2019 10:50:29
0'15'30'45'
0'
15'
30'
45'
60'
75'
E-2
4-1B-11-1B-2
E-1
Segmented Perforated Non-shearwall Aspect factor Orange = Selected wall(s)
Level 2 of 2
Page 52 of 132
WoodWorks® Shearwalls SOFTWARE FOR WOOD DESIGN
WoodWorks® Shearwalls 11.1
Wyndstone Lateral - Office.wsw Nov. 6, 2019 10:48:20
Project Information
COMPANY AND PROJECT INFORMATION
Company Project
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
DESIGN SETTINGS
Design Code
IBC 2015/AWC SDPWS 2015
Wind Standard
ASCE 7-10 Directional (All heights)
Seismic Standard
ASCE 7-10
Load Combinations
For Design (ASD)
0.70 Seismic + 0.60 Dead
0.60 Wind + 0.60 Dead
For Deflection (Strength)
1.00 Seismic + 0.90 Dead
1.00 Wind + 0.90 Dead
Building Code Capacity Modification
Wind Seismic
1.00 1.00
Service Conditions and Load Duration
Duration
Factor
-
Temperature
Range
-
Moisture Content
Fabrication Service
15% <=19% 10% <=19%
Max Shearwall Offset [ft]
Plan
(within story)
4.00
Elevation
(between stories)
0.00
Maximum Height-to-width Ratio
Wood panels
Wind Seismic
Fiberboard Lumber
Wind Seismic
Gypsum
Blocked Unblocked
3.5 3.5 - - - - -
Ignore non-wood-panel shear resistance contribution...
Wind Seismic
when comb'd w/ wood panels Always
Collector forces based on...
Hold-downs Applied loads
Drag struts Applied loads
Shearwall Relative Rigidity: Wall capacity
Perforated shearwall Co factor: SDPWS Equation 4.3-5
Non-identical materials and construction on the shearline: Allowed, except for material type
Deflection Equation: 3-term from SDPWS 4.2-1
Drift limit for wind design: 1 / 500 story height
SITE INFORMATION
Risk Category Category II - All others
Wind
ASCE 7-10 Directional (All heights)
Seismic
ASCE 7-10 12.8 Equivalent Lateral Force Procedure
Design Wind Speed 110 mph
Exposure Exposure B
Enclosure Partly Enclosed
Structure Type Regular
Building System Bearing Wall
Design Category D
Site Class D
Topographic Information [ft]
Shape
-
Height
-
Length
-
Site Location: -
Elev: 0ft Avg Air density: 0.0765 lb/cu ft
Rigid building - Static analysis
Spectral Response Acceleration
S1: 0.500g Ss: 1.250g
Fundamental Period E-W N-S
T Used 0.235s 0.235s
Approximate Ta 0.235s 0.235s
Maximum T 0.329s 0.329s
Response Factor R 6.50 6.50
Fa: 1.00 Fv: 1.60 Case 2 N-S loadsE-W loads
Eccentricity (%)15 15
Loaded at 75%
Min Wind Loads: Walls
Roofs
16 psf
8 psf
Serviceability Wind Speed 85 mph
1
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Structural Data
STORY INFORMATION
Hold-down
Story Floor/Ceiling Wall Length subject to Bolt
Elev [ft]Depth [in]Height [ft]shrinkage [in]length [in]
Ceiling 22.00 0.0
Level 2 13.00 12.0 9.00 15.7 16.5
Level 1 0.00 0.0 12.00 3.8 4.5
Foundation 0.00
SHEATHING MATERIALS by WALL GROUP
Sheathing Fasteners Apply
Grp Surf Material Ratng Thick GU Ply Or Gvtv Size Type Df Eg Fd Bk Notes
in in lbs/in in in
1 Ext Struct Sh OSB 24/0 3/8 -3 Vert 77500 6d Nail N 6 12 Y
2 Both Struct Sh OSB 24/0 3/8 - 3 Vert 77500 6d Nail N 3 12 Y 2
3 1 Struct Sh OSB 24/0 3/8 -3 Vert 77500 6d Nail N 4 12 Y
Legend:
Grp – Wall Design Group number, used to reference wall in other tables
Surf – Exterior or interior surface when applied to exterior wall
Ratng – Span rating, see SDPWS Table C4.2.2.2C
Thick – Nominal panel thickness
GU - Gypsum underlay thickness
Ply – Number of plies (or layers) in construction of plywood sheets
Or – Orientation of longer dimension of sheathing panels
Gvtv – Shear stiffness in lb/in. of depth from SDPWS Tables C4.2.2A-B
Type – Fastener type from SDPWS Tables 4.3A-D: Nail – common wire nail for structural panels and lumber, cooler or gypsum wallboard nail for
GWB, plasterboard nail for gypsum lath, galvanised nail for gypsum sheathing; Box - box nail; Casing – casing nail; Roof – roofing nail; Screw –
drywall screw
Size - Common, box, and casing nails: refer to SDPWS Table A1 (casing sizes = box sizes).
Gauges: 11 ga = 0.120” x 1-3/4” (gypsum sheathing, 25/32” fiberboard ), 1-1/2” (lath & plaster, 1/2” fiberboard); 13 ga plasterboard = 0.92” x 1-
1/8”.
Cooler or gypsum wallboard nail: 5d = .086” x 1-5/8”; 6d = .092” x 1-7/8”; 8d = .113” x 2-3/8”; 6/8d = 6d base ply, 8d face ply for 2-ply GWB.
Drywall screws: No. 6, 1-1/4” long.
5/8” gypsum sheathing can also use 6d cooler or GWB nail
Df – Deformed nails ( threaded or spiral), with increased withdrawal capacity
Eg – Panel edge fastener spacing
Fd – Field spacing interior to panels
Bk – Sheathing is nailed to blocking at all panel edges; Y(es) or N(o)
Apply Notes – Notes below table legend which apply to sheathing side
Notes:
2. Framing at adjoining panel edges must be 3" nominal or wider with staggered nailing according to SDPWS 4.3.7.1.4
FRAMING MATERIALS and STANDARD WALL by WALL GROUP
Wall Species Grade b d Spcg SG E Standard Wall
Grp in in in psi^6
1 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
2 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
3 D.Fir-L Stud 1.50 5.50 16 0.50 1.40
Legend:
Wall Grp – Wall Design Group
b – Stud breadth (thickness)
d – Stud depth (width)
Spcg – Maximum on-centre spacing of studs for design, actual spacing may be less.
SG – Specific gravity
E – Modulus of elasticity
Standard Wall - Standard wall designed as group.
Notes:
Check manufacture requirements for stud size, grade and specific gravity (G) for all shearwall hold-downs.
2
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Loads
DEAD LOADS (for hold-down calculations)
Shear Level Profile Tributary Location [ft]Mag [lbs,psf,psi]
Line Width [ft] Start End Start End
A 2 Line 0.00 37.00 301.5
F 2 Line 0.00 37.00 301.5
4 2 Line 18.50 55.50 145.5
E 1 Line 14.75 37.00 563.0
F 1 Line 0.00 37.00 301.5
1 1 Line 0.00 74.00 324.0
4 1 Line 18.50 55.50 145.5
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Design Summary
SHEARWALL DESIGN
Wind Shear Loads, Flexible Diaphragm
All shearwalls have sufficient design capacity.
Seismic Loads, Flexible Diaphragm
All shearwalls have sufficient design capacity.
HOLDDOWN DESIGN
Wind Loads, Flexible Diaphragm
All hold-downs have sufficient design capacity.
Seismic Loads, Flexible Diaphragm
All hold-downs have sufficient design capacity.
This Design Summary does not include failures that occur due to excessive story drift from ASCE 7 CC1.2 (wind) or 12.12 (seismic).
Refer to Story Drift table in this report to verify this design criterion.
Refer to the Deflection table for possible issues regarding fastener slippage (SDPWS Table C4.2.2D).
4
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Flexible Diaphragm Wind Design
ASCE 7 Directional (All Heights) Loads
SHEAR RESULTS
N-S W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line 1
Level 2
Ln1, Lev2 1 Both 60.8 - 2251 - 1.0 - 280 - 280 10360 0.22
Level 1
Ln1, Lev1 - Both - - 7269 - - - - - - 19880 -
Wall 1-2 1 Both - - 7269 - 1.0 - 280 - - 19880 -
Seg. 1 - Both 102.4 - 6015 - 1.0 - 280 - 280 16450 0.37
Seg. 2 - Both 102.4 - 1254 - 1.0 - 280 - 280 3430 0.37
Line 4
Level 2
Ln4, Lev2 - Both - - 2251 - - - - - - 4741 -
Wall 4-1 1 Both - - 2251 - 1.0 - 280 - - 4741 -
Seg. 1 - Both 81.3 - 223 - .61 - 171 - 171 471 0.47
Seg. 2 - Both 133.0 - 898 - 1.0 - 280 - 280 1890 0.47
Seg. 3 - Both 133.0 - 864 - 1.0 - 280 - 280 1820 0.47
Seg. 4 - Both 88.6 - 266 - .67 - 187 - 187 560 0.47
Level 1
Ln4, Lev1 - Both - - 7620 - - - - - - 15820 -
Wall 4-1 1 Both 134.9 - 3810 - 1.0 - 280 - 280 7910 0.48
Wall 4-2 1 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall 4-3 1 Both 134.9 - 3810 - 1.0 - 280 - 280 7910 0.48
E-W W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line A
Level 1
LnA, Lev1 - Both - - 4776 - - - - - - 6973 -
Wall A-1 1^Both 0.0 - 0 - 1.0 - 0 - - - -
Wall A-2 1 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall A-3 1 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall A-4 2 Both - - 4776 1.0 1.0 546 546 - A - 6973 -
Seg. 1 - Both 529.8 - 2251 .71 .71 387 387 - 773 3287 0.68
Seg. 2 - Both 560.9 - 2524 .75 .75 410 410 - 819 3686 0.68
Line B
Level 2
LnB, Lev2 - Both - - 1955 - - - - - - 7210 -
Wall B-2 1 Both - - 1955 - 1.0 - 280 - - 7210 -
Seg. 1 - Both 75.9 - 474 - 1.0 - 280 - 280 1750 0.27
Seg. 2 - Both 75.9 - 361 - 1.0 - 280 - 280 1330 0.27
Seg. 3 - Both 75.9 - 361 - 1.0 - 280 - 280 1330 0.27
Seg. 4 - Both 75.9 - 361 - 1.0 - 280 - 280 1330 0.27
Seg. 5 - Both 75.9 - 399 - 1.0 - 280 - 280 1470 0.27
Line E
LnE, Lev2 - Both - - 1955 - - - - - - 6981 -
Wall E-2 1 Both - - 1955 - 1.0 - 280 - - 6981 -
Seg. 1 - Both 47.9 - 132 - .61 - 171 - 171 471 0.28
Seg. 2 - Both 78.4 - 372 - 1.0 - 280 - 280 1330 0.28
Seg. 3 - Both 78.4 - 666 - 1.0 - 280 - 280 2380 0.28
Seg. 4 - Both 78.4 - 353 - 1.0 - 280 - 280 1260 0.28
Seg. 5 - Both 78.4 - 431 - 1.0 - 280 - 280 1540 0.28
Level 1
LnE, Lev1 - Both - - 6987 - - - - - - 9345 -
Wall E-1 3 Both 314.0 - 6987 - 1.0 - 420 - 420 9345 0.75
Line F
LnF, Lev1 - Both - - 1163 - - - - - - 1788 -
Wall F-1 1^Both 0.0 - 0 - 1.0 - 0 - - - -
Wall F-2 1 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall F-3 1 Both 0.0 - 0 - 1.0 - 280 - - - -
Wall F-4 1 Both - - 1163 - 1.0 - 280 - - 1788 -
Seg. 1 - Both 129.0 - 548 - .71 - 198 - 198 843 0.65
Seg. 2 - Both 136.6 - 615 - .75 - 210 - 210 945 0.65
Legend:
W Gp - Wall design group defined in Sheathing and Framing Materials tables, where it shows associated Standard Wall. "^" means that this wall is
critical for all walls in the Standard Wall group.
5
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For Dir - Direction of wind force along shearline.
v - Design shear force on segment = ASD factored shear force per unit FHS
vmax - Collector shear force for perforated walls as per SDPWS eqn. 4.3-8 = V/FHS/Co. Full height sheathing (FHS) factored for narrow segments
as per 4.3.4.3
V - ASD factored shear force. For shearline: total shearline force. For wall: total of all segments on wall. For segment: force on segment
Asp/Cub – For wall: Unblocked structural wood panel factor Cub from SDPWS 4.3.3.2. For segment: Aspect ratio adjustment from SDPWS
4.3.3.4.1
Int - Unit shear capacity of interior sheathing; Ext - Unit shear capacity of exterior sheathing. For wall: Unfactored. For segment: Include Cub factor
and aspect ratio adjustments.
Co - Adjustment factor for perforated walls from SDPWS Equation 4.3-5.
C - Sheathing combination rule, A = Add capacities, S = Strongest side or twice weakest, G = Stiffness-based using SDPWS 4.3-3.
Cmb - Combined interior and exterior unit shear capacity including perforated wall factor Co.
V – Total factored shear capacity of shearline, wall or segment.
Crit Resp – Response ratio = v/Cmb = design shear force/unit shear capacity. "S" indicates that the wind design criterior was critical in selecting
wall.
Notes:
Refer to Elevation View diagrams for individual level for uplift anchorage force t for perforated walls given by SDPWS 4.3.6.4.2,4.
6
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HOLD-DOWN DESIGN (flexible wind design)
Level 1 Tensile ASD
Line-Location [ft] Load Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-2 L End 0.00 0.12 1 1234 5905
1-1 R End 3.25 1.88 194
V Elem 0.00 18.63 1 551 551 Refer to upper level
V Elem 0.00 55.38 1 551 551 Refer to upper level
1-2 L Op 1 0.00 58.63 1 1234 6002
1-2 R Op 1 0.00 61.88 1 1254 1482
1-3 L End 3.25 72.12 194
1-2 R End 0.00 73.88 1 1254 1385
Line 4
4-1 L End 37.00 2.13 1 1633 213 1419 N/A 25000 0.06
V Elem 37.00 18.63 1 804 120 684 Refer to upper level
V Elem 37.00 21.13 1 804 382 423 Refer to upper level
V Elem 37.00 27.38 1 1243 557 686 Refer to upper level
4-1 R End 37.00 30.13 1 1633 812 820 N/A 25000 0.03
4-2 L End 34.00 30.38 1 120
4-2 L Op 1 34.00 32.88 1 469
V Elem 37.00 33.87 1 1243 557 686 Refer to upper level
V Elem 37.00 40.12 1 1245 546 699 Refer to upper level
4-2 R Op 1 34.00 41.13 1 469
4-2 R End 34.00 43.63 1 120
4-3 L End 37.00 43.88 1 1633 812 820 N/A 25000 0.03
V Elem 37.00 46.38 1 1245 546 699 Refer to upper level
V Elem 37.00 52.63 1 870 393 477 Refer to upper level
V Elem 37.00 55.38 1 870 131 739 Refer to upper level
4-3 R End 37.00 71.88 1 1633 213 1419 N/A 25000 0.06
Line A
A-4 L End 22.38 2.00 1 6754 6754 HDQ8-SDS3 9230 0.73
A-4 L Op 1 26.38 2.00 1 6754 6754 HDQ8-SDS3 9230 0.73
A-4 R Op 1 32.62 2.00 1 7127 7127 HDQ8-SDS3 9230 0.77
A-4 R End 36.88 2.00 1 7127 7127 HDQ8-SDS3 9230 0.77
Line B
V Elem 3.38 18.50 1 712 712 Refer to upper level
V Elem 9.38 18.50 1 712 712 Refer to upper level
V Elem 11.63 18.50 1 721 721 Refer to upper level
V Elem 16.13 18.50 1 721 721 Refer to upper level
V Elem 18.38 18.50 1 721 721 Refer to upper level
V Elem 22.88 18.50 1 721 721 Refer to upper level
V Elem 25.13 18.50 1 721 721 Refer to upper level
V Elem 29.63 18.50 1 721 721 Refer to upper level
V Elem 31.88 18.50 1 717 717 Refer to upper level
V Elem 36.88 18.50 1 717 717 Refer to upper level
Line E
V Elem 3.38 55.50 1 474 474 Refer to upper level
V Elem 5.88 55.50 1 474 474 Refer to upper level
V Elem 8.13 55.50 1 745 745 Refer to upper level
V Elem 12.63 55.50 1 745 745 Refer to upper level
E-1 L End 14.88 55.50 1 4538 3758 780 HDU5-SDS2. 5645 0.14
V Elem 23.13 55.50 1 727 727 Refer to upper level
V Elem 25.38 55.50 1 747 747 Refer to upper level
V Elem 29.63 55.50 1 747 747 Refer to upper level
V Elem 31.63 55.50 1 739 739 Refer to upper level
E-1 R End 36.88 55.50 1 4550 3758 792 HDU5-SDS2. 5645 0.14
Line F
F-1 L End 0.12 74.00 1 294
F-1 R End 3.13 74.00 1 294
F-2 L End 3.38 72.00 1 68
F-2 L Op 1 3.88 72.00 1 611
F-2 R Op 1 10.13 72.00 633
F-2 R End 10.88 72.00 90
F-3 L End 11.13 74.00 226
F-3 L Op 1 13.38 74.00 769
F-3 R Op 1 19.63 74.00 791
F-3 R End 22.13 74.00 249
F-4 L End 22.38 72.00 1 1645 384 1261 STHD10 (6" 2640 0.48
F-4 L Op 1 26.38 72.00 1 1645 927 718 STHD10 (6" 2640 0.27
F-4 R Op 1 32.62 72.00 1 1736 950 786 STHD10 (6" 2640 0.30
F-4 R End 36.88 72.00 1 1736 407 1329 STHD10 (6" 2640 0.50
Level 2 Tensile ASD
Line-Location [ft]Load Holddown Force [lbs]Cap Crit
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HOLD-DOWN DESIGN (flexible wind design, continued)
Wall Posit'n X Y Case Shear Dead Uplift Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 18.63 1 551 551 Limit With 900 0.61
1-1 R End 0.00 55.38 1 551 551 Limit With 900 0.61
Line 4
4-1 L End 37.00 18.63 1 804 120 684 Limit With 900 0.76
4-1 L Op 1 37.00 21.13 1 804 382 423 Limit With 900 0.47
4-1 R Op 1 37.00 27.38 1 1243 557 686 Limit With 900 0.76
4-1 L Op 2 37.00 33.87 1 1243 557 686 Limit With 900 0.76
4-1 R Op 2 37.00 40.12 1 1245 546 699 Limit With 900 0.78
4-1 L Op 3 37.00 46.38 1 1245 546 699 Limit With 900 0.78
4-1 R Op 3 37.00 52.63 1 870 393 477 Limit With 900 0.53
4-1 R End 37.00 55.38 1 870 131 739 Limit With 900 0.82
Line B
B-2 L End 3.38 18.50 1 712 712 Limit With 900 0.79
B-2 L Op 1 9.38 18.50 1 712 712 Limit With 900 0.79
B-2 R Op 1 11.63 18.50 1 721 721 Limit With 900 0.80
B-2 L Op 2 16.13 18.50 1 721 721 Limit With 900 0.80
B-2 R Op 2 18.38 18.50 1 721 721 Limit With 900 0.80
B-2 L Op 3 22.88 18.50 1 721 721 Limit With 900 0.80
B-2 R Op 3 25.13 18.50 1 721 721 Limit With 900 0.80
B-2 L Op 4 29.63 18.50 1 721 721 Limit With 900 0.80
B-2 R Op 4 31.88 18.50 1 717 717 Limit With 900 0.80
B-2 R End 36.88 18.50 1 717 717 Limit With 900 0.80
Line E
E-2 L End 3.38 55.50 1 474 474 Limit With 900 0.53
E-2 L Op 1 5.88 55.50 1 474 474 Limit With 900 0.53
E-2 R Op 1 8.13 55.50 1 745 745 Limit With 900 0.83
E-2 L Op 2 12.63 55.50 1 745 745 Limit With 900 0.83
E-2 R Op 2 14.88 55.50 1 727 727 Limit With 900 0.81
E-2 L Op 3 23.13 55.50 1 727 727 Limit With 900 0.81
E-2 R Op 3 25.38 55.50 1 747 747 Limit With 900 0.83
E-2 L Op 4 29.63 55.50 1 747 747 Limit With 900 0.83
E-2 R Op 4 31.63 55.50 1 739 739 Limit With 900 0.82
E-2 R End 36.88 55.50 1 739 739 Limit With 900 0.82
Legend:
Line-Wall:
At wall or opening – Shearline and wall number At vertical element - Shearline
Posit'n - Position of stud that hold-down is attached to:
V Elem - Vertical element: column or strengthened studs required where not at wall end or opening
L or R End - At left or right wall end
L or R Op n - At left or right side of opening n
Location - Co-ordinates in Plan View
Load Case - Results are for critical load case:
ASCE 7 All Heights: Case 1 or 2 from Fig. 27.4-8
ASCE 7 Low-rise: Windward corner(s) and Case A or B from Fig. 28.4-1
ASCE 7 Minimum loads (27.1.5 / 28.4.4)
Hold-down Forces:
Shear – Wind shear overturning component, based on shearline force, factored for ASD by 0.60. For perforated walls, T from SDPWS 4.3-8 is
used.
Dead – Dead load resisting component, factored for ASD by 0.60
Uplift - Uplift wind load component, factored for ASD by 0.60. For perforated walls, T from SDPWS 4.3-8 is used.
Cmb'd - Sum of ASD factored overturning, dead and uplift forces. May also include the uplift force t for perforated walls from SDPWS 4.3.6.2.1
when openings are staggered.
Hold-down – Device used from hold-down database
Cap – Allowable ASD tension load
Crit. Resp. - Critical Response = Combined ASD force / Allowable ASD tension load
Notes:
Refer to Shear Results table for factor Co, and shearline dimensions table for the sum of Li, used to calculate tension force T for perforated walls
from SDPWS 4.3-9.
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DRAG STRUT FORCES (flexible wind design)
Level 1 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 1
1-2 Left Opening 1 0.00 58.75 1 244 244
1-2 Right Opening 1 0.00 61.75 1 51 51
1-2 Right Wall End 0.00 74.00 1 0 0
Line A
A-2 Left Wall End 10.00 2.00 1 1291 1291
A-4 Left Opening 1 26.50 2.00 1 1169 1169
A-4 Right Opening 1 32.50 2.00 1 1943 1943
Line E
E-1 Left Wall End 14.75 55.50 1 2785 2785
Line F
F-2 Left Wall End 10.00 72.00 1 314 314
F-4 Left Opening 1 26.50 72.00 1 285 285
F-4 Right Opening 1 32.50 72.00 1 473 473
Level 2 Drag Strut
Line- Position on Wall Location [ft]Load Force [lbs]
Wall or Opening X Y Case ---> <---
Line 4
4-1 Left Opening 1 37.00 21.25 1 56 56
4-1 Right Opening 1 37.00 27.25 1 309 309
4-1 Left Opening 2 37.00 34.00 1 178 178
4-1 Right Opening 2 37.00 40.00 1 187 187
4-1 Left Opening 3 37.00 46.50 1 282 282
4-1 Right Opening 3 37.00 52.50 1 83 83
Line B
B-2 Left Wall End 3.25 18.50 1 172 172
B-2 Left Opening 1 9.50 18.50 1 27 27
B-2 Right Opening 1 11.50 18.50 1 133 133
B-2 Left Opening 2 16.25 18.50 1 23 23
B-2 Right Opening 2 18.25 18.50 1 129 129
B-2 Left Opening 3 23.00 18.50 1 19 19
B-2 Right Opening 3 25.00 18.50 1 125 125
B-2 Left Opening 4 29.75 18.50 1 16 16
B-2 Right Opening 4 31.75 18.50 1 121 121
Line E
E-2 Left Wall End 3.25 55.50 1 172 172
E-2 Left Opening 1 6.00 55.50 1 185 185
E-2 Right Opening 1 8.00 55.50 1 291 291
E-2 Left Opening 2 12.75 55.50 1 169 169
E-2 Right Opening 2 14.75 55.50 1 275 275
E-2 Left Opening 3 23.25 55.50 1 58 58
E-2 Right Opening 3 25.25 55.50 1 163 163
E-2 Left Opening 4 29.75 55.50 1 48 48
E-2 Right Opening 4 31.50 55.50 1 141 141
Legend:
Line-Wall - Shearline and wall number
Position…- Side of opening or wall end that drag strut is attached to
Location - Co-ordinates in Plan View
Load Case - Results are for critical load case:
ASCE 7 All heights Case 1 or 2
ASCE 7 Low-rise corner; Case A or B
Drag strut Force - Axial force in transfer elements at openings and gaps in walls along shearline.
Based on ASD factored shearline force (vmax from 4.3.6.4.1.1 for perforated walls)
-> Due to shearline force in the west-to-east or south-to-north direction
<- Due to shearline force in the east-to-west or north-to-south direction
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Flexible Diaphragm Seismic Design
SEISMIC INFORMATION
Level Mass Area Story Shear [lbs]Diaphragm Force Fpx [lbs]
[lbs][sq.ft]E-W N-S E-W N-S
2 32963 1369.0 6102 6102 6102 6102
1 99653 2607.5 10900 10900 16609 16609
All 132616 - 17002 17002 - -
Legend:
Building mass – Sum of all generated and input building masses on level = wx in ASCE 7 equation 12.8-12.
Storey shear – Total unfactored (strength-level) shear force induced at level x, = Fx in ASCE 7 equation 12.8-11.
Diaphragm force Fpx - Unfactored force intended for diaphragm design from Eqn 12.10-1; used by Shearwalls only for drag strut forces, see
12.10.2.1 Exception 2.
Redundancy Factor p (rho):
E-W 1.00, N-S 1.00
Automatically calculated according to ASCE 7 12.3.4.2.
Vertical Earthquake Load Ev
Ev = 0.2 Sds D; Sds = 0.83; Ev = 0.167 D unfactored; 0.117 D factored; total dead load factor: 0.6 - 0.117 = 0.483 tension, 1.0 + 0.117 = 1.117
compression.
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SHEAR RESULTS (flexible seismic design)
N-S W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line 1
Level 2
Ln1, Lev2 1 Both 57.7 - 2136 - 1.0 - 200 - 200 7400 0.29
Level 1
Ln1, Lev1 - Both - - 5946 - - - - - - 14200 -
Wall 1-2 1 Both - - 5946 - 1.0 - 200 - - 14200 -
Seg. 1 - Both 83.7 - 4920 - 1.0 - 200 - 200 11750 0.42
Seg. 2 - Both 83.7 - 1026 - 1.0 - 200 - 200 2450 0.42
Line 4
Level 2
Ln4, Lev2 - Both - - 2136 - - - - - - 3386 -
Wall 4-1 1 Both - - 2136 - 1.0 - 200 - - 3386 -
Seg. 1 - Both 77.1 - 212 - .61 - 122 - 122 336 0.63
Seg. 2 - Both 126.1 - 851 - 1.0 - 200 - 200 1350 0.63
Seg. 3 - Both 126.1 - 820 - 1.0 - 200 - 200 1300 0.63
Seg. 4 - Both 84.1 - 252 - .67 - 133 - 133 400 0.63
Level 1
Ln4, Lev1 - Both - - 5956 - - - - - - 11300 -
Wall 4-1 1 Both 105.4 - 2978 - 1.0 - 200 - 200 5650 0.53
Wall 4-2 1 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall 4-3 1 Both 105.4 - 2978 - 1.0 - 200 - 200 5650 0.53
E-W W For ASD Shear Force [plf]Asp-Cub Allowable Shear [plf]Resp.
Shearlines Gp Dir v vmax V [lbs]Int Ext Int Ext Co C Cmb V [lbs]Ratio
Line A
Level 1
LnA, Lev1 - Both - - 4438 - - - - - - 4981 -
Wall A-1 1^Both 0.0 - 0 - 1.0 - 0 - - - -
Wall A-2 1 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall A-3 1 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall A-4 2^Both - - 4438 1.0 1.0 390 390 - A - 4981 -
Seg. 1 - Both 492.3 - 2092 .71 .71 276 276 - 553 2348 0.89
Seg. 2 - Both 521.3 - 2346 .75 .75 293 293 - 585 2633 0.89
Line B
Level 2
LnB, Lev2 - Both - - 2136 - - - - - - 5150 -
Wall B-2 1 Both - - 2136 - 1.0 - 200 - - 5150 -
Seg. 1 - Both 82.9 - 518 - 1.0 - 200 - 200 1250 0.41
Seg. 2 - Both 82.9 - 394 - 1.0 - 200 - 200 950 0.41
Seg. 3 - Both 82.9 - 394 - 1.0 - 200 - 200 950 0.41
Seg. 4 - Both 82.9 - 394 - 1.0 - 200 - 200 950 0.41
Seg. 5 - Both 82.9 - 435 - 1.0 - 200 - 200 1050 0.41
Line E
LnE, Lev2 - Both - - 2136 - - - - - - 4986 -
Wall E-2 1 Both - - 2136 - 1.0 - 200 - - 4986 -
Seg. 1 - Both 52.3 - 144 - .61 - 122 - 122 336 0.43
Seg. 2 - Both 85.7 - 407 - 1.0 - 200 - 200 950 0.43
Seg. 3 - Both 85.7 - 728 - 1.0 - 200 - 200 1700 0.43
Seg. 4 - Both 85.7 - 385 - 1.0 - 200 - 200 900 0.43
Seg. 5 - Both 85.7 - 471 - 1.0 - 200 - 200 1100 0.43
Level 1
LnE, Lev1 - Both - - 6218 - - - - - - 6675 -
Wall E-1 3^Both 279.4 - 6218 - 1.0 - 300 - 300 6675 0.93
Line F
LnF, Lev1 - Both - - 1252 - - - - - - 1277 -
Wall F-1 1^Both 0.0 - 0 - 1.0 - 0 - - - -
Wall F-2 1 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall F-3 1 Both 0.0 - 0 - 1.0 - 200 - - - -
Wall F-4 1 Both - - 1252 - 1.0 - 200 - - 1277 -
Seg. 1 - Both 138.9 - 590 - .71 - 142 - 142 602 0.98
Seg. 2 - Both 147.1 - 662 - .75 - 150 - 150 675 0.98
Legend:
W Gp - Wall design group defined in Sheathing and Framing Materials tables, where it shows associated Standard Wall. "^" means that this wall is
critical for all walls in the Standard Wall group.
For Dir – Direction of seismic force along shearline.
v - Design shear force on segment = ASD factored shear force per unit FHS
vmax - Collector shear force for perforated walls as per SDPWS eqn. 4.3-8 = V/FHS/Co. Full height sheathing (FHS) factored for narrow segments
as per 4.3.4.3
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V - ASD factored shear force. For shearline: total shearline force. For wall: total of all segments on wall. For segment: force on segment
Asp/Cub – For wall: Unblocked structural wood panel factor Cub from SDPWS 4.3.3.2. For segment: Aspect ratio adjustment from SDPWS
4.3.3.4.1
Int - Unit shear capacity of interior sheathing; Ext - Unit shear capacity of exterior sheathing. For wall: Unfactored. For segment: Include Cub factor
and aspect ratio adjustments.
Co - Adjustment factor for perforated walls from SDPWS Equation 4.3-5.
C - Sheathing combination rule, A = Add capacities, S = Strongest side or twice weakest, G = Stiffness-based using SDPWS 4.3-3.
Cmb - Combined interior and exterior unit shear capacity including perforated wall factor Co.
V – Total factored shear capacity of shearline, wall or segment.
Crit Resp – Response ratio = v/Cmb = design shear force/unit shear capacity. "W" indicates that the wind design criterior was critical in selecting
wall.
Notes:
Refer to Elevation View diagrams for individual level for uplift anchorage force t for perforated walls given by SDPWS 4.3.6.4.2,4.
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HOLD-DOWN DESIGN (flexible seismic design)
Level 1 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-2 L End 0.00 0.12 1009 5905
1-1 R End 3.25 1.88 194
V Elem 0.00 18.63 523 523 Refer to upper level
V Elem 0.00 55.38 523 523 Refer to upper level
1-2 L Op 1 0.00 58.63 1009 6002
1-2 R Op 1 0.00 61.88 1026 1482
1-3 L End 3.25 72.12 194
1-2 R End 0.00 73.88 1026 1385
Line 4
4-1 L End 37.00 2.13 1276 213 41 1104 N/A 25000 0.04
V Elem 37.00 18.63 763 120 23 666 Refer to upper level
V Elem 37.00 21.13 763 382 74 455 Refer to upper level
V Elem 37.00 27.38 1179 557 108 731 Refer to upper level
4-1 R End 37.00 30.13 1276 812 158 622 N/A 25000 0.02
4-2 L End 34.00 30.38 120
4-2 L Op 1 34.00 32.88 469
V Elem 37.00 33.87 1179 557 108 731 Refer to upper level
V Elem 37.00 40.12 1181 546 106 741 Refer to upper level
4-2 R Op 1 34.00 41.13 469
4-2 R End 34.00 43.63 120
4-3 L End 37.00 43.88 1276 812 158 622 N/A 25000 0.02
V Elem 37.00 46.38 1181 546 106 741 Refer to upper level
V Elem 37.00 52.63 826 393 76 509 Refer to upper level
V Elem 37.00 55.38 826 131 25 720 Refer to upper level
4-3 R End 37.00 71.88 1276 213 41 1104 N/A 25000 0.04
Line A
A-4 L End 22.38 2.00 6277 6277 HDQ8-SDS3 9230 0.68
A-4 L Op 1 26.38 2.00 6277 6277 HDQ8-SDS3 9230 0.68
A-4 R Op 1 32.62 2.00 6623 6623 HDQ8-SDS3 9230 0.72
A-4 R End 36.88 2.00 6623 6623 HDQ8-SDS3 9230 0.72
Line B
V Elem 3.38 18.50 778 778 Refer to upper level
V Elem 9.38 18.50 778 778 Refer to upper level
V Elem 11.63 18.50 788 788 Refer to upper level
V Elem 16.13 18.50 788 788 Refer to upper level
V Elem 18.38 18.50 788 788 Refer to upper level
V Elem 22.88 18.50 788 788 Refer to upper level
V Elem 25.13 18.50 788 788 Refer to upper level
V Elem 29.63 18.50 788 788 Refer to upper level
V Elem 31.88 18.50 784 784 Refer to upper level
V Elem 36.88 18.50 784 784 Refer to upper level
Line E
V Elem 3.38 55.50 518 518 Refer to upper level
V Elem 5.88 55.50 518 518 Refer to upper level
V Elem 8.13 55.50 814 814 Refer to upper level
V Elem 12.63 55.50 814 814 Refer to upper level
E-1 L End 14.88 55.50 4186 3758 731 1158 HDU5-SDS2. 5645 0.21
V Elem 23.13 55.50 794 794 Refer to upper level
V Elem 25.38 55.50 816 816 Refer to upper level
V Elem 29.63 55.50 816 816 Refer to upper level
V Elem 31.63 55.50 808 808 Refer to upper level
E-1 R End 36.88 55.50 4199 3758 731 1172 HDU5-SDS2. 5645 0.21
Line F
F-1 L End 0.12 74.00 294
F-1 R End 3.13 74.00 294
F-2 L End 3.38 72.00 68
F-2 L Op 1 3.88 72.00 611
F-2 R Op 1 10.13 72.00 633
F-2 R End 10.88 72.00 90
F-3 L End 11.13 74.00 226
F-3 L Op 1 13.38 74.00 769
F-3 R Op 1 19.63 74.00 791
F-3 R End 22.13 74.00 249
F-4 L End 22.38 72.00 1771 384 75 1461 STHD10 (6" 2640 0.55
F-4 L Op 1 26.38 72.00 1771 927 180 1024 STHD10 (6" 2640 0.39
F-4 R Op 1 32.62 72.00 1868 950 185 1103 STHD10 (6" 2640 0.42
F-4 R End 36.88 72.00 1868 407 79 1541 STHD10 (6" 2640 0.58
Level 2 Tensile ASD
Line-Location [ft]Holddown Force [lbs]Cap Crit
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HOLD-DOWN DESIGN (flexible seismic design, continued)
Wall Posit'n X Y Shear Dead Ev Cmb'd Hold-down [lbs]Resp.
Line 1
1-1 L End 0.00 18.63 523 523 Limit With 900 0.58
1-1 R End 0.00 55.38 523 523 Limit With 900 0.58
Line 4
4-1 L End 37.00 18.63 763 120 23 666 Limit With 900 0.74
4-1 L Op 1 37.00 21.13 763 382 74 455 Limit With 900 0.51
4-1 R Op 1 37.00 27.38 1179 557 108 731 Limit With 900 0.81
4-1 L Op 2 37.00 33.87 1179 557 108 731 Limit With 900 0.81
4-1 R Op 2 37.00 40.12 1181 546 106 741 Limit With 900 0.82
4-1 L Op 3 37.00 46.38 1181 546 106 741 Limit With 900 0.82
4-1 R Op 3 37.00 52.63 826 393 76 509 Limit With 900 0.57
4-1 R End 37.00 55.38 826 131 25 720 Limit With 900 0.80
Line B
B-2 L End 3.38 18.50 778 778 Limit With 900 0.86
B-2 L Op 1 9.38 18.50 778 778 Limit With 900 0.86
B-2 R Op 1 11.63 18.50 788 788 Limit With 900 0.88
B-2 L Op 2 16.13 18.50 788 788 Limit With 900 0.88
B-2 R Op 2 18.38 18.50 788 788 Limit With 900 0.88
B-2 L Op 3 22.88 18.50 788 788 Limit With 900 0.88
B-2 R Op 3 25.13 18.50 788 788 Limit With 900 0.88
B-2 L Op 4 29.63 18.50 788 788 Limit With 900 0.88
B-2 R Op 4 31.88 18.50 784 784 Limit With 900 0.87
B-2 R End 36.88 18.50 784 784 Limit With 900 0.87
Line E
E-2 L End 3.38 55.50 518 518 Limit With 900 0.58
E-2 L Op 1 5.88 55.50 518 518 Limit With 900 0.58
E-2 R Op 1 8.13 55.50 814 814 Limit With 900 0.90
E-2 L Op 2 12.63 55.50 814 814 Limit With 900 0.90
E-2 R Op 2 14.88 55.50 794 794 Limit With 900 0.88
E-2 L Op 3 23.13 55.50 794 794 Limit With 900 0.88
E-2 R Op 3 25.38 55.50 816 816 Limit With 900 0.91
E-2 L Op 4 29.63 55.50 816 816 Limit With 900 0.91
E-2 R Op 4 31.63 55.50 808 808 Limit With 900 0.90
E-2 R End 36.88 55.50 808 808 Limit With 900 0.90
Legend:
Line-Wall:
At wall or opening – Shearline and wall number
At vertical element - Shearline
Posit'n - Position of stud that hold-down is attached to:
V Elem - Vertical element: column or strengthened studs required where not at wall end or opening
L or R End - At left or right wall end
L or R Op n - At left or right side of opening n
Location - Co-ordinates in Plan View
Hold-down Forces:
Shear – Seismic shear overturning component, factored for ASD by 0.7. For perforated walls, T from SDPWS 4.3-8 is used
Dead – Dead load resisting component, factored for ASD by 0.60
Ev – Vertical seismic load effect from ASCE 7 12.4.2.2 = -0.2Sds x ASD seismic factor x unfactored D = 0.194 x factored D. Refer to Seismic
Information table for more details.
Cmb'd - Sum of ASD-factored overturning, dead and vertical seismic forces. May also include the uplift force t for perforated walls from SDPWS
4.3.6.2.1 when openings are staggered.
Hold-down – Device used from hold-down database
Cap – Allowable ASD tension load
Crit. Resp. – Critical Response = Combined ASD force/Allowable ASD tension load
Notes:
Shear overturning force is horizontal seismic load effect Eh from ASCE 7 12.4.2.
Uses load combination 8 from ASCE 7 2.4.1 = 0.6D + 0.7 (Eh - Ev).
Anchor bolts must have minimum 0.229" x 3" x 3" steel plate washers, conforming to specifications in SDPWS 4.3.6.4.3 and 4.4.1.6.
Refer to Shear Results table for factor Co, and shearline dimensions table for the sum of Li, used to calculate tension force T for perforated walls
from SDPWS 4.3-9.
Shearwalls does not check for either plan or vertical structural irregularities.
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DRAG STRUT FORCES (flexible seismic design)
Level 1 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 1
1-2 Left Opening 1 0.00 58.75 199 199
1-2 Right Opening 1 0.00 61.75 42 42
Line A
A-2 Left Wall End 10.00 2.00 1199 1199
A-4 Left Opening 1 26.50 2.00 1086 1086
A-4 Right Opening 1 32.50 2.00 1806 1806
Line E
E-1 Left Wall End 14.75 55.50 2479 2479
Line F
F-2 Left Wall End 10.00 72.00 338 338
F-4 Left Opening 1 26.50 72.00 306 306
F-4 Right Opening 1 32.50 72.00 509 509
Level 2 Drag Strut
Line- Position on Wall Location [ft]Force [lbs]
Wall or Opening X Y ---> <---
Line 4
4-1 Left Opening 1 37.00 21.25 53 53
4-1 Right Opening 1 37.00 27.25 293 293
4-1 Left Opening 2 37.00 34.00 169 169
4-1 Right Opening 2 37.00 40.00 178 178
4-1 Left Opening 3 37.00 46.50 267 267
4-1 Right Opening 3 37.00 52.50 79 79
Line B
B-2 Left Wall End 3.25 18.50 188 188
B-2 Left Opening 1 9.50 18.50 30 30
B-2 Right Opening 1 11.50 18.50 145 145
B-2 Left Opening 2 16.25 18.50 26 26
B-2 Right Opening 2 18.25 18.50 141 141
B-2 Left Opening 3 23.00 18.50 21 21
B-2 Right Opening 3 25.00 18.50 137 137
B-2 Left Opening 4 29.75 18.50 17 17
B-2 Right Opening 4 31.75 18.50 132 132
Line E
E-2 Left Wall End 3.25 55.50 188 188
E-2 Left Opening 1 6.00 55.50 202 202
E-2 Right Opening 1 8.00 55.50 318 318
E-2 Left Opening 2 12.75 55.50 185 185
E-2 Right Opening 2 14.75 55.50 300 300
E-2 Left Opening 3 23.25 55.50 63 63
E-2 Right Opening 3 25.25 55.50 178 178
E-2 Left Opening 4 29.75 55.50 53 53
E-2 Right Opening 4 31.50 55.50 154 154
Legend:
Line-Wall - Shearline and wall number
Position…- Side of opening or wall end that drag strut is attached to
Location - Co-ordinates in Plan View
Drag strut Force - Axial force in transfer elements at openings and gaps in walls along shearline.
Based on ASD factored shearline force derived from the greater of:
Diaphragm force Fpx from Eqn. 12.10-1 plus 25% irregularity increase (12.3.3.4)
Storey force Vx from Eqn 12.8-13
For perforated walls, shearline force is vmax from 4.3.6.4.1.1. Includes redundancy factor rho.
-> Due to shearline force in the west-to-east or south-to-north direction
<- Due to shearline force in the east-to-west or north-to-south direction
15
Page 67 of 132
WoodWorks® Shearwalls Wyndstone Lateral - Office.wsw Nov. 6, 2019
10:48:20
16
Page 68 of 132
Wood Shear Wall With Force Transfer Around Opening (2008 AF&PA 4.3.5.2)3.25'Provide shear wall capacity =650 lbs/ft
Allowable shear multiplied factor =1
Tension header strap =1794 lbs
2.75'Tension sill strap =1951 lbs
3.25'
Provide hold down capacity =3732 #
Break up wall frame into free-body panel sections and balance force for each panel
150#1794#1794#72#3.25'46#/ft
1944#1944#598#/ft
1944#598#/ft
1944#1944#24#/ft
3810#
1944#1866#
150#78#
1944#1866#3.00'598#/ft 622#/ft
1944#1866#
1944#1866#3.00'598#/ft 622#/ft
1944#1866#
3738#3810#
1944#1866#2.75'-2#/ft
1788#1788#650#/ft
1788#650#/ft
1788#1788#-28#/ft
-7#1951#1951#-85#
3.25'3.00'3.00'3.00'
3810.0 #
1794#
1944#
1866#6.00'6.00'3.00'
1944#
1794#
1794#
1794#
1866#
3732 #3732 #
1951#1951#
Page 69 of 132
Project: Wyndstone Gravity - Building 1
Location: Breezeway Stringers (2nd & 3rd Floors)
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:20 PM
Multi-Loaded Multi-Span Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 11.25 IN x 9.0 FT Pressure Treated
#2 - Hem-Fir - Dry Use
Section Adequate By: 122.7%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.01
0.05
IN L/2495
in
IN L/2155
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
900
142
1042
0.47
lb
lb
lb
in
B
900
142
1042
0.47
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Live Load Duration Factor
Notch Depth
9
0
9
1.00
0.00
ft
ft
ft
Center
MATERIAL PROPERTIES
#2 - Hem-Fir
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.5 Ft from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Controlling Shear:
At a distance d from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00 Ci=0.80
Fv =
Cd=1.00 Ci=0.80
E =
Ci=0.95
Fc - ┴ =
2344 ft-lb
834 lb
675
140
1100
405
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
540
112
1045
405
psi
psi
ksi
psi
Adjusted
52.1
11.16
94.16
2344
834
in3
in2
in4
ft-lb
lb
Req'd
116.02
61.88
652.59
5221
4620
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B9 ft
w
UNIFORM LOADS
Uniform Live Load
Uniform Dead Load
Beam Self Weight
Total Uniform Load
200
20
12
232
plf
plf
plf
plf
Center
NOTES
Page 70 of 132
Project: Wyndstone Gravity - Building 1
Location: Column - SF24 Bearing
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:20 PM
Column
[2015 International Building Code(2015 NDS)]
5.5 x 12.0 x 12.0 FT
24F-V8 - Visually Graded Western Species - Dry Use
Section Adequate By: 27.3%
VERTICAL REACTIONS
Live Load:
Dead Load:
Total Load:
Vert-LL-Rxn =
Vert-DL-Rxn =
Vert-TL-Rxn =
23596
19998
43594
lb
lb
lb
COLUMN DATA
Total Column Length:
Unbraced Length (X-Axis) Lx:
Unbraced Length (Y-Axis) Ly:
Column End Condition-K (e):
Axial Load Duration Factor
12
12
12
1
1.00
ft
ft
ft
COLUMN PROPERTIES
24F-V8 - Visually Graded Western Species
Compressive Stress:
Bending Stress (X-X Axis):
Bending Stress (Y-Y Axis):
Modulus of Elasticity:
Column Section (X-X Axis):
Column Section (Y-Y Axis):
Area:
Section Modulus (X-X Axis):
Section Modulus (Y-Y Axis):
Slenderness Ratio:
Column Calculations (Controlling Case Only):
Controlling Load Case: Axial Total Load Only (L + D)
Actual Compressive Stress:
Allowable Compressive Stress:
Eccentricity Moment (X-X Axis):
Eccentricity Moment (Y-Y Axis):
Moment Due to Lateral Loads (X-X Axis):
Moment Due to Lateral Loads (Y-Y Axis):
Bending Stress Lateral Loads Only (X-X Axis):
Allowable Bending Stress (X-X Axis):
Bending Stress Lateral Loads Only (Y-Y Axis):
Allowable Bending Stress (Y-Y Axis):
Combined Stress Factor:
Fc =
Cd=1.00 Cp=0.55
Fbx =
Cd=1.00
Fby =
Cd=1.00
E =
1650
0
1550
1800
psi
psi
psi
ksi
Base Values
Fc' =
Fbx' =
Fby' =
E' =
908
2400
1550
1800
psi
psi
psi
ksi
Adjusted
dx =
dy =
A =
Sx =
Sy =
Lex/dx =
Ley/dy =
Fc =
Fc' =
Mx-ex =
My-ey =
Mx =
My =
Fbx =
Fbx' =
Fby =
Fby' =
CSF =
12
5.5
66
132
60.5
12
26.18
661
908
0
0
0
0
0
2400
0
1550
0.73
in
in
in2
in3
in3
psi
psi
ft-lb
ft-lb
ft-lb
ft-lb
psi
psi
psi
psi
LOADING DIAGRAM
12 ft
A
B
AXIAL LOADING
Live Load:
Dead Load:
Column Self Weight:
Total Axial Load:
* Load obtained from Load Tracker. See Summary Report for details.
PL =
PD =
CSW =
PT =
23596
19826
172
43594
lb *
lb *
lb
lb
NOTES
Page 71 of 132
Project: Wyndstone Gravity - Building 1
Location: Exterior Footing - No Breezeway Loading
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:21 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 24.0 IN Wide x 8.0 IN Deep Continuous Footing With 8.0 IN Thick
x 24.0 IN Tall Stemwall
LongitudinalReinforcement: (2) Continuous #4 Bars
TransverseReinforcement: #4 Bars @ 12.00 IN. O.C. (unnecessary)
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Depth:
Effective Depth to Top Layer of Steel:
W =
Depth =
d =
24
8
4.25
in
in
in
STEMWALL SIZE
Stemwall Width:
Stemwall Height:
Stemwall Weight:
8
24
150
in
in
pcf
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Width Required:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Transverse Direction:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Wreq =
Vu1 =
Vc1 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
772
1400
1.1
330
3825
2816
0
0.30
0.02
0.19
0.19
Trans: #4's @ 12.0 in. o.c.
0.19
15
5
psf
psf
ft
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
2 ft
8 in
8 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
PL =
PD =
PT =
Pu =
648
697
1544
2112
plf
plf
plf
plf
LOAD CALCULATOR
Live Load Dead Load Tributary Width
Roof:
Second Floor:
First Floor:
LL =
LL =
LL =
DL =
DL =
DL =
TA =
TA =
TA =
25
40
40
15
20
20
19.5
2
2
psf
psf
psf
psf
psf
psf
ft2
ft2
ft2
Longitudinal Direction:
Reinforcement Calculations:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
As(2) =
As-reqd =
As =
0.38
0.38
Longitudinal: (2) Cont. #4 Bars
0.39
in2
in2
in2
NOTES
Page 72 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - Exterior (Wrost Case)
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:21 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 24.0 IN Wide x 8.0 IN Deep Continuous Footing With 8.0 IN Thick
x 18.0 IN Tall Stemwall
LongitudinalReinforcement: (2) Continuous #4 Bars
TransverseReinforcement: #4 Bars @ 12.00 IN. O.C. (unnecessary)
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Depth:
Effective Depth to Top Layer of Steel:
W =
Depth =
d =
24
8
4.25
in
in
in
STEMWALL SIZE
Stemwall Width:
Stemwall Height:
Stemwall Weight:
8
18
150
in
in
pcf
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Width Required:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Transverse Direction:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Wreq =
Vu1 =
Vc1 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1379
1400
1.97
610
3825
5202
0
0.30
0.03
0.19
0.19
Trans: #4's @ 12.0 in. o.c.
0.19
15
5
psf
psf
ft
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
2 ft
8 in
8 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
PL =
PD =
PT =
Pu =
1480
1128
2758
3902
plf
plf
plf
plf
LOAD CALCULATOR
Live Load Dead Load Tributary Width
Roof:
Second Floor:
First Floor:
LL =
LL =
LL =
DL =
DL =
DL =
TA =
TA =
TA =
25
100
40
15
60
20
2
9.5
12
psf
psf
psf
psf
psf
psf
ft2
ft2
ft2
Longitudinal Direction:
Reinforcement Calculations:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
As(2) =
As-reqd =
As =
0.38
0.38
Longitudinal: (2) Cont. #4 Bars
0.39
in2
in2
in2
NOTES
Page 73 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - Interior-B
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:21 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 3.0 FT x 3.0 FT x 10.00 IN
Reinforcement: #4 Bars @ 9.00 IN. O.C. E/W / (4) min.
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Length:
Depth:
Effective Depth to Top Layer of Steel:
W =
L =
Depth =
d =
3
3
10
6.25
ft
ft
in
in
COLUMN AND BASEPLATE SIZE
Column Type:
Column Width:
Column Depth:
Baseplate Width:
Baseplate Length:
Steel
m =
n =
bsw =
bsl =
4
4
6
6
in
in
in
in
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Required Footing Area:
Area Provided:
Baseplate Bearing:
Bearing Required:
Allowable Bearing:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Punching Shear Calculations (Two Way Shear):
Critical Perimeter:
Punching Shear:
Allowable Punching Shear (ACI 11-35):
Allowable Punching Shear (ACI 11-36):
Allowable Punching Shear (ACI 11-37):
Controlling Allowable Punching Shear:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Note: Plain concrete adequate for bending,
therefore adequate development length not required.
Qu =
Qe =
Areq =
A =
Bear =
Bear-A =
Vu1 =
Vc1 =
Bo =
Vu2 =
vc2-a =
vc2-b =
vc2-c =
vc2 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1078
1375
7.06
9.00
13800
99450
3546
16875
45
12452
63281
79688
42188
42188
46048
170825
0.41
0.21
0.72
0.72
#4's @ 9.0 in. o.c. e/w (4) Min.
0.79
15
12.5
psf
psf
sf
sf
lb
lb
lb
lb
in
lb
lb
lb
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
3 ft
10 in
4 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
Footing plus soil above footing weight:
* Load obtained from Load Tracker. See Summary Report for details.
PL =
PD =
PT =
Pu =
Wt =
5391
4312
9703
13800
725
lb *
lb *
lb *
lb
lb
NOTES
Page 74 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - Office Floor Bearing
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:22 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 16.0 IN Wide x 12.0 IN Deep Continuous Footing
LongitudinalReinforcement: (2) Continuous #4 Bars
TransverseReinforcement: #4 Bars @ 8.00 IN. O.C. (unnecessary)
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Depth:
Effective Depth to Top Layer of Steel:
W =
Depth =
d =
16
12
8.25
in
in
in
STEMWALL SIZE
Stemwall Width:
Stemwall Height:
Stemwall Weight:
0
0
150
in
in
pcf
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Width Required:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Transverse Direction:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Wreq =
Vu1 =
Vc1 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1070
1350
1.06
0
7425
4182
0
0.45
0.01
0.29
0.29
Trans: #4's @ 8.0 in. o.c.
0.29
15
5
psf
psf
ft
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
1.333333 ft
12 in
0 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
PL =
PD =
PT =
Pu =
950
476
1426
2091
plf
plf
plf
plf
LOAD CALCULATOR
Live Load Dead Load Tributary Width
Roof:
Second Floor:
First Floor:
LL =
LL =
LL =
DL =
DL =
DL =
TA =
TA =
TA =
25
50
40
15
20
10
0
19
0
psf
psf
psf
psf
psf
psf
ft2
ft2
ft2
Longitudinal Direction:
Reinforcement Calculations:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
As(2) =
As-reqd =
As =
0.38
0.38
Longitudinal: (2) Cont. #4 Bars
0.39
in2
in2
in2
NOTES
Page 75 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - Office Shear Wall
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:22 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 18.0 IN Wide x 12.0 IN Deep Continuous Footing
LongitudinalReinforcement: (3) Continuous #4 Bars
TransverseReinforcement: #4 Bars @ 8.00 IN. O.C. (unnecessary)
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Depth:
Effective Depth to Top Layer of Steel:
W =
Depth =
d =
18
12
8.25
in
in
in
STEMWALL SIZE
Stemwall Width:
Stemwall Height:
Stemwall Weight:
0
0
150
in
in
pcf
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Width Required:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Transverse Direction:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Wreq =
Vu1 =
Vc1 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1211
1350
1.35
110
7425
5916
0
0.45
0.02
0.29
0.29
Trans: #4's @ 8.0 in. o.c.
0.29
15
6
psf
psf
ft
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
1.5 ft
12 in
0 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
PL =
PD =
PT =
Pu =
1125
691
1816
2629
plf
plf
plf
plf
LOAD CALCULATOR
Live Load Dead Load Tributary Width
Roof:
Second Floor:
First Floor:
LL =
LL =
LL =
DL =
DL =
DL =
TA =
TA =
TA =
25
50
40
15
20
10
29
8
0
psf
psf
psf
psf
psf
psf
ft2
ft2
ft2
Longitudinal Direction:
Reinforcement Calculations:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
As(2) =
As-reqd =
As =
0.43
0.43
Longitudinal: (3) Cont. #4 Bars
0.59
in2
in2
in2
NOTES
Page 76 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - Seperation Wall
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:22 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 24.0 IN Wide x 8.0 IN Deep Continuous Footing With 10.0 IN Thick
x 24.0 IN Tall Stemwall
LongitudinalReinforcement: (2) Continuous #4 Bars
TransverseReinforcement: #4 Bars @ 12.00 IN. O.C. (unnecessary)
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Depth:
Effective Depth to Top Layer of Steel:
W =
Depth =
d =
24
8
4.25
in
in
in
STEMWALL SIZE
Stemwall Width:
Stemwall Height:
Stemwall Weight:
10
24
150
in
in
pcf
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Width Required:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Transverse Direction:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Wreq =
Vu1 =
Vc1 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1107
1400
1.58
352
3825
3135
0
0.30
0.02
0.19
0.19
Trans: #4's @ 12.0 in. o.c.
0.19
15
4
psf
psf
ft
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
2 ft
8 in
10 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
PL =
PD =
PT =
Pu =
1035
929
2214
3071
plf
plf
plf
plf
LOAD CALCULATOR
Live Load Dead Load Tributary Width
Roof:
Second Floor:
First Floor:
LL =
LL =
LL =
DL =
DL =
DL =
TA =
TA =
TA =
25
40
40
15
20
20
35
2
2
psf
psf
psf
psf
psf
psf
ft2
ft2
ft2
Longitudinal Direction:
Reinforcement Calculations:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
As(2) =
As-reqd =
As =
0.38
0.38
Longitudinal: (2) Cont. #4 Bars
0.39
in2
in2
in2
NOTES
Page 77 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - SF18 Bearing
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:23 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 3.5 FT x 3.5 FT x 12.00 IN
Reinforcement: #4 Bars @ 7.00 IN. O.C. E/W / (6) min.
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Length:
Depth:
Effective Depth to Top Layer of Steel:
W =
L =
Depth =
d =
3.5
3.5
12
8.25
ft
ft
in
in
COLUMN AND BASEPLATE SIZE
Column Type:
Column Width:
Column Depth:
Baseplate Width:
Baseplate Length:
Steel
m =
n =
bsw =
bsl =
4
4
6
6
in
in
in
in
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Required Footing Area:
Area Provided:
Baseplate Bearing:
Bearing Required:
Allowable Bearing:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Punching Shear Calculations (Two Way Shear):
Critical Perimeter:
Punching Shear:
Allowable Punching Shear (ACI 11-35):
Allowable Punching Shear (ACI 11-36):
Allowable Punching Shear (ACI 11-37):
Controlling Allowable Punching Shear:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Note: Plain concrete adequate for bending,
therefore adequate development length not required.
Qu =
Qe =
Areq =
A =
Bear =
Bear-A =
Vu1 =
Vc1 =
Bo =
Vu2 =
vc2-a =
vc2-b =
vc2-c =
vc2 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1296
1350
11.76
12.25
23536
99450
5744
25988
53
21194
98381
134888
65588
65588
95895
338532
0.53
0.33
1.01
1.01
#4's @ 7.0 in. o.c. e/w (6) Min.
1.18
15
15.5
psf
psf
sf
sf
lb
lb
lb
lb
in
lb
lb
lb
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
3.5 ft
12 in
4 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
Footing plus soil above footing weight:
* Load obtained from Load Tracker. See Summary Report for details.
PL =
PD =
PT =
Pu =
Wt =
11200
4680
15880
23536
1184
lb *
lb *
lb *
lb
lb
NOTES
Page 78 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - SF19 Bearing
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:23 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 3.5 FT x 3.5 FT x 12.00 IN
Reinforcement: #4 Bars @ 7.00 IN. O.C. E/W / (6) min.
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Length:
Depth:
Effective Depth to Top Layer of Steel:
W =
L =
Depth =
d =
3.5
3.5
12
8.25
ft
ft
in
in
COLUMN AND BASEPLATE SIZE
Column Type:
Column Width:
Column Depth:
Baseplate Width:
Baseplate Length:
Steel
m =
n =
bsw =
bsl =
4
4
6
6
in
in
in
in
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Required Footing Area:
Area Provided:
Baseplate Bearing:
Bearing Required:
Allowable Bearing:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Punching Shear Calculations (Two Way Shear):
Critical Perimeter:
Punching Shear:
Allowable Punching Shear (ACI 11-35):
Allowable Punching Shear (ACI 11-36):
Allowable Punching Shear (ACI 11-37):
Controlling Allowable Punching Shear:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Note: Plain concrete adequate for bending,
therefore adequate development length not required.
Qu =
Qe =
Areq =
A =
Bear =
Bear-A =
Vu1 =
Vc1 =
Bo =
Vu2 =
vc2-a =
vc2-b =
vc2-c =
vc2 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1154
1350
10.47
12.25
20926
99450
5107
25988
53
18843
98381
134888
65588
65588
85261
338532
0.53
0.29
1.01
1.01
#4's @ 7.0 in. o.c. e/w (6) Min.
1.18
15
15.5
psf
psf
sf
sf
lb
lb
lb
lb
in
lb
lb
lb
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
3.5 ft
12 in
4 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
Footing plus soil above footing weight:
* Load obtained from Load Tracker. See Summary Report for details.
PL =
PD =
PT =
Pu =
Wt =
9916
4217
14133
20926
1184
lb *
lb *
lb *
lb
lb
NOTES
Page 79 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - SF23 Bearing
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:23 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 4.0 FT x 4.0 FT x 12.00 IN
Reinforcement: #4 Bars @ 8.00 IN. O.C. E/W / (6) min.
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Length:
Depth:
Effective Depth to Top Layer of Steel:
W =
L =
Depth =
d =
4
4
12
8.25
ft
ft
in
in
COLUMN AND BASEPLATE SIZE
Column Type:
Column Width:
Column Depth:
Baseplate Width:
Baseplate Length:
Steel
m =
n =
bsw =
bsl =
4
4
6
6
in
in
in
in
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Required Footing Area:
Area Provided:
Baseplate Bearing:
Bearing Required:
Allowable Bearing:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Punching Shear Calculations (Two Way Shear):
Critical Perimeter:
Punching Shear:
Allowable Punching Shear (ACI 11-35):
Allowable Punching Shear (ACI 11-36):
Allowable Punching Shear (ACI 11-37):
Controlling Allowable Punching Shear:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Areq =
A =
Bear =
Bear-A =
Vu1 =
Vc1 =
Bo =
Vu2 =
vc2-a =
vc2-b =
vc2-c =
vc2 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1137
1350
13.48
16.00
25456
99450
7027
29700
53
23517
98381
134888
65588
65588
122575
339930
0.46
0.42
1.15
1.15
#4's @ 8.0 in. o.c. e/w (6) Min.
1.18
15
18.5
psf
psf
sf
sf
lb
lb
lb
lb
in
lb
lb
lb
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
4 ft
12 in
4 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
Footing plus soil above footing weight:
* Load obtained from Load Tracker. See Summary Report for details.
PL =
PD =
PT =
Pu =
Wt =
9053
9143
18196
25456
1547
lb *
lb *
lb *
lb
lb
NOTES
Page 80 of 132
Project: Wyndstone Gravity - Building 1
Location: Footing - SF24 Bearing
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:24 PM
Footing
[2015 International Building Code(2015 NDS)]
Footing Size: 5.75 FT x 5.75 FT x 14.00 IN
Reinforcement: #4 Bars @ 6.00 IN. O.C. E/W / (10) min.
Section Footing Design Adequate
FOOTING PROPERTIES
Allowable Soil Bearing Pressure:
Concrete Compressive Strength:
Reinforcing Steel Yield Strength:
Concrete Reinforcement Cover:
Qs =
F'c =
Fy =
c =
1500
2500
40000
3
psf
psi
psi
in
FOOTING SIZE
Width:
Length:
Depth:
Effective Depth to Top Layer of Steel:
W =
L =
Depth =
d =
5.75
5.75
14
10.25
ft
ft
in
in
COLUMN AND BASEPLATE SIZE
Column Type:
Column Width:
Column Depth:
Wood
m =
n =
5.5
10.5
in
in
FOOTING CALCULATIONS
Bearing Calculations:
Ultimate Bearing Pressure:
Effective Allowable Soil Bearing Pressure:
Required Footing Area:
Area Provided:
Baseplate Bearing:
Bearing Required:
Allowable Bearing:
Beam Shear Calculations (One Way Shear):
Beam Shear:
Allowable Beam Shear:
Punching Shear Calculations (Two Way Shear):
Critical Perimeter:
Punching Shear:
Allowable Punching Shear (ACI 11-35):
Allowable Punching Shear (ACI 11-36):
Allowable Punching Shear (ACI 11-37):
Controlling Allowable Punching Shear:
Bending Calculations:
Factored Moment:
Nominal Moment Strength:
Reinforcement Calculations:
Concrete Compressive Block Depth:
Steel Required Based on Moment:
Min. Code Req'd Reinf. Shrink./Temp. (ACI-10.5.4):
Controlling Reinforcing Steel:
Selected Reinforcement:
Reinforcement Area Provided:
Development Length Calculations:
Development Length Required:
Development Length Supplied:
Qu =
Qe =
Areq =
A =
Bear =
Bear-A =
Vu1 =
Vc1 =
Bo =
Vu2 =
vc2-a =
vc2-b =
vc2-c =
vc2 =
Mu =
Mn =
a =
As(1) =
As(2) =
As-reqd =
As =
Ld =
Ld-sup =
1313
1325
32.77
33.06
61545
159534
21630
53044
73
57320
114910
213713
112238
112238
530824
705250
0.54
1.47
1.93
1.93
#4's @ 6.0 in. o.c. e/w (10) Min.
1.96
15
31.5
psf
psf
sf
sf
lb
lb
lb
lb
in
lb
lb
lb
lb
lb
in-lb
in-lb
in
in2
in2
in2
in2
in
in
LOADING DIAGRAM
5.75 ft
14 in
5.5 in
3 in
5.75 ft
14 in
10.5 in
3 in
FOOTING LOADING
Live Load:
Dead Load:
Total Load:
Ultimate Factored Load:
Footing plus soil above footing weight:
* Load obtained from Load Tracker. See Summary Report for details.
PL =
PD =
PT =
Pu =
Wt =
23596
19826
43422
61545
3729
lb *
lb *
lb *
lb
lb
NOTES
Page 81 of 132
Project: Wyndstone Gravity - Building 1
Location: R01
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:24 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 10.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 150.2%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.08
0.06
0.14
IN L/1518
in
IN L/863
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
313
237
550
0.25
lb
lb
lb
in
B
313
237
550
0.25
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
10
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
5.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1374 ft-lb
484 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
12.25
3.5
30.91
1374
484
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B10 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
1.5
25
15
1
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
10
6
63
47
110
ft
plf
plf
plf
plf
NOTES
Page 82 of 132
Project: Wyndstone Gravity - Building 1
Location: R02
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:24 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.0 IN x 8.5 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 50.3%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.15
0.10
0.25
IN L/700
in
IN L/415
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
2019
1383
3402
1.50
lb
lb
lb
in
B
2019
1383
3402
1.50
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
8.5
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.25 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.15
Fv =
Cd=1.15
E =
Fc - ┴ =
7229 ft-lb
-2858 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2760
305
1800
650
psi
psi
ksi
psi
Adjusted
31.43
14.07
122.88
7229
-2858
in3
in2
in4
ft-lb
lb
Req'd
47.25
31.5
212.63
10868
6400
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B8.5 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
0
0
0
25
15
19
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
8.5
7
475
325
800
ft
plf
plf
plf
plf
NOTES
Page 83 of 132
Project: Wyndstone Gravity - Building 1
Location: R02-Short Span
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:25 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.0 IN x 3.0 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 966.0%
Controlling Factor: Shear
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.00
0.00
0.00
IN L/MAX
in
IN L/9446
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
713
488
1201
0.53
lb
lb
lb
in
B
713
488
1201
0.53
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
3
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.15
Fv =
Cd=1.15
E =
Fc - ┴ =
901 ft-lb
-600 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2760
305
1800
650
psi
psi
ksi
psi
Adjusted
3.92
2.95
5.4
901
-600
in3
in2
in4
ft-lb
lb
Req'd
47.25
31.5
212.63
10868
6400
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
0
0
0
25
15
19
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
3
7
475
325
800
ft
plf
plf
plf
plf
NOTES
Page 84 of 132
Project: Wyndstone Gravity - Building 1
Location: R03
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:25 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 9.0 IN x 9.5 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 74.6%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.16
0.11
0.26
IN L/730
in
IN L/432
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
2434
1684
4118
1.15
lb
lb
lb
in
B
2434
1684
4118
1.15
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
9.5
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.15
Fv =
Cd=1.15
E =
Fc - ┴ =
9781 ft-lb
3542 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2760
305
1800
650
psi
psi
ksi
psi
Adjusted
42.53
17.43
185.81
9781
3542
in3
in2
in4
ft-lb
lb
Req'd
74.25
49.5
334.13
17078
10057
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B9.5 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
18.5
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
9.5
11
513
355
867
ft
plf
plf
plf
plf
NOTES
Page 85 of 132
Project: Wyndstone Gravity - Building 1
Location: R04
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:25 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 51.3%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.02
0.06
IN L/2027
in
IN L/1202
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1350
927
2277
1.04
lb
lb
lb
in
B
1350
927
2277
1.04
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.20
Fv =
Cd=1.15
E =
Fc - ┴ =
3415 ft-lb
1730 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1242
207
1600
625
psi
psi
ksi
psi
Adjusted
33
12.54
46.1
3415
1730
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
5166
4468
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
3
25
15
15
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
7
450
309
759
ft
plf
plf
plf
plf
NOTES
Page 86 of 132
Project: Wyndstone Gravity - Building 1
Location: R05
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:26 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 39.7%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.03
0.06
IN L/1871
in
IN L/1110
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1463
1002
2465
1.13
lb
lb
lb
in
B
1463
1002
2465
1.13
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.20
Fv =
Cd=1.15
E =
Fc - ┴ =
3697 ft-lb
-1873 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1242
207
1600
625
psi
psi
ksi
psi
Adjusted
35.72
13.57
49.9
3697
-1873
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
5166
4468
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
17.5
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
7
488
334
822
ft
plf
plf
plf
plf
NOTES
Page 87 of 132
Project: Wyndstone Gravity - Building 1
Location: R06
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:26 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 49.2%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.02
0.06
IN L/1999
in
IN L/1186
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1369
939
2308
1.06
lb
lb
lb
in
B
1369
939
2308
1.06
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.20
Fv =
Cd=1.15
E =
Fc - ┴ =
3462 ft-lb
1754 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1242
207
1600
625
psi
psi
ksi
psi
Adjusted
33.45
12.71
46.73
3462
1754
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
5166
4468
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
16.3
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
7
456
313
769
ft
plf
plf
plf
plf
NOTES
Page 88 of 132
Project: Wyndstone Gravity - Building 1
Location: R07
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:26 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 7.5 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 90.9%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.06
0.04
0.10
IN L/1499
in
IN L/878
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
563
398
961
0.44
lb
lb
lb
in
B
563
398
961
0.44
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
7.5
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1801 ft-lb
-807 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
16.06
5.85
30.38
1801
-807
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B7.5 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
3
25
15
3
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
7.5
6
150
106
256
ft
plf
plf
plf
plf
NOTES
Page 89 of 132
Project: Wyndstone Gravity - Building 1
Location: R08
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:27 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 60.1%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.03
0.02
0.06
IN L/2146
in
IN L/1272
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1275
876
2151
0.98
lb
lb
lb
in
B
1275
876
2151
0.98
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.20
Fv =
Cd=1.15
E =
Fc - ┴ =
3227 ft-lb
1635 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1242
207
1600
625
psi
psi
ksi
psi
Adjusted
31.18
11.85
43.56
3227
1635
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
5166
4468
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
15
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
7
425
292
717
ft
plf
plf
plf
plf
NOTES
Page 90 of 132
Project: Wyndstone Gravity - Building 1
Location: R09
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:27 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 50.8%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.05
0.03
0.08
IN L/1464
in
IN L/867
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
900
620
1520
0.69
lb
lb
lb
in
B
900
620
1520
0.69
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
2280 ft-lb
1216 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
20.34
8.81
30.78
2280
1216
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
10
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
6
300
207
507
ft
plf
plf
plf
plf
NOTES
Page 91 of 132
Project: Wyndstone Gravity - Building 1
Location: R10
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:27 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 7.5 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 128.1%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.05
0.04
0.09
IN L/1799
in
IN L/1049
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
469
335
804
0.37
lb
lb
lb
in
B
469
335
804
0.37
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
7.5
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1507 ft-lb
675 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
13.44
4.89
25.43
1507
675
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B7.5 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
3
25
15
2
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
7.5
6
125
89
214
ft
plf
plf
plf
plf
NOTES
Page 92 of 132
Project: Wyndstone Gravity - Building 1
Location: R11
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:28 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 72.0%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.03
0.07
IN L/1673
in
IN L/989
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
788
545
1333
0.61
lb
lb
lb
in
B
788
545
1333
0.61
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1998 ft-lb
-1066 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
17.82
7.72
26.97
1998
-1066
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
3
25
15
7.5
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
6
263
182
444
ft
plf
plf
plf
plf
NOTES
Page 93 of 132
Project: Wyndstone Gravity - Building 1
Location: R12
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:28 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 13.75 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 120.2%
Controlling Factor: Deflection
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.13
0.18
0.31
IN L/1223
in
IN L/529
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1014
1333
2347
0.96
lb
lb
lb
in
B
1014
1333
2347
0.96
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
13.75
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
6.875 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.00
Fv =
Cd=1.15
E =
Fc - ┴ =
8066 ft-lb
-2018 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2994
328
1800
700
psi
psi
ksi
psi
Adjusted
32.33
9.24
221.79
8066
-2018
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
20523
9081
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.75 ft
w
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
1
psf
psf
ft
Side 1
25
15
2.5
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
10
1.5
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
88
59
60
15
12
148
194
341
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 94 of 132
Project: Wyndstone Gravity - Building 1
Location: SF01
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:28 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 224.8%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.02
0.02
0.04
IN L/3194
in
IN L/1867
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
413
293
706
0.32
lb
lb
lb
in
B
413
293
706
0.32
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1059 ft-lb
565 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
9.44
4.09
14.29
1059
565
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
3.5
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
6
138
98
235
ft
plf
plf
plf
plf
NOTES
Page 95 of 132
Project: Wyndstone Gravity - Building 1
Location: SF02
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:28 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 24.5%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.05
0.09
IN L/1996
in
IN L/823
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
660
941
1601
0.73
lb
lb
lb
in
B
660
941
1601
0.73
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
6
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.30
Fv =
Cd=1.00
E =
Fc - ┴ =
2401 ft-lb
1280 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1170
180
1600
625
psi
psi
ksi
psi
Adjusted
24.62
10.67
32.4
2401
1280
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
2989
3045
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
w
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
1
108
psf
psf
ft
plf
Side 1
60
60
3
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
220
308
6
534
plf
plf
plf
plf
NOTES
Page 96 of 132
Project: Wyndstone Gravity - Building 1
Location: SF03
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:29 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 3.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 24.5%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.01
0.02
IN L/3648
in
IN L/2275
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
3000
1811
4811
2.20
lb
lb
lb
in
B
3000
1811
4811
2.20
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
3
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.20
Fv =
Cd=1.00
E =
Fc - ┴ =
3608 ft-lb
2405 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1080
180
1600
625
psi
psi
ksi
psi
Adjusted
40.09
20.04
24.35
3608
2405
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
4492
3885
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
100
60
8
0
psf
psf
ft
plf
Side 1
100
60
12
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
2000
1200
7
3207
plf
plf
plf
plf
NOTES
Page 97 of 132
Project: Wyndstone Gravity - Building 1
Location: SF04
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:29 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 3.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 76.5%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.01
0.02
IN L/3513
in
IN L/2334
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1500
758
2258
1.03
lb
lb
lb
in
B
1500
758
2258
1.03
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
3
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.30
Fv =
Cd=1.00
E =
Fc - ┴ =
1694 ft-lb
-1355 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1170
180
1600
625
psi
psi
ksi
psi
Adjusted
17.37
11.29
11.43
1694
-1355
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
2989
3045
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
12.5
0
psf
psf
ft
plf
Side 1
40
20
12.5
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
1000
500
6
1506
plf
plf
plf
plf
NOTES
Page 98 of 132
Project: Wyndstone Gravity - Building 1
Location: SF05
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:29 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 5.0 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 568.5%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.00
0.01
IN L/7503
in
IN L/4923
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1250
655
1905
0.78
lb
lb
lb
in
B
1250
655
1905
0.78
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
5
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
2382 ft-lb
1181 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
10.98
6.22
23.81
2382
1181
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B5 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
12.5
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
500
250
12
762
plf
plf
plf
plf
NOTES
Page 99 of 132
Project: Wyndstone Gravity - Building 1
Location: SF06
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:30 PM
Multi-Span Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 11.875 IN x 11.0 FT
2.0E Parallam - iLevel Trus Joist
Section Adequate By: 61.1%
Controlling Factor: Deflection
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
-0.06
-0.06
-0.12
IN 2L/762
in
IN 2L/386
Left
0.12
0.11
0.23
IN L/1126
in
IN L/571
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
2900
2822
5722
2.18
lb
lb
lb
in
B
2008
1954
3962
1.51
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Notch Depth
2
0
2
1.00
0.00
ft
ft
ft
Left
11
0
11
ft
ft
ft
Center
MATERIAL PROPERTIES
2.0E Parallam - iLevel Trus Joist
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
5.72 Ft from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 1, 2
Controlling Shear:
At a distance d from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 1, 2
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.00
Fv =
Cd=1.15
E =
Fc - ┴ =
10533 ft-lb
3577 lb
2900
290
2000
750
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
3339
334
2000
750
psi
psi
ksi
psi
Adjusted
37.86
16.09
303.25
10533
3577
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
22888
9241
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B2 ft 11 ft
w w
ROOF LOADING
Live Load
Dead Load
Tributary Width Side One
Tributary Width Side Two
RLL =
RDL =
TW1 =
TW2 =
25
15
10
3.5
psf
psf
ft
ft
Left
25
15
10
3.5
psf
psf
ft
ft
Center
FLOOR LOADING
Live Load
Dead Load
Tributary Width Side One
Tributary Width Side Two
Wall Load
FLL =
FDL =
TW1 =
TW2 =
WALL =
40
20
1
0
108
psf
psf
ft
ft
plf
Left
40
20
1
0
108
psf
psf
ft
ft
plf
Center
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
338
226
40
20
13
378
367
745
plf
plf
plf
plf
plf
plf
plf
plf
Left
338
226
40
20
13
378
367
745
plf
plf
plf
plf
plf
plf
plf
plf
Center
NOTES
Page 100 of 132
Project: Wyndstone Gravity - Building 1
Location: SF07
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:30 PM
Multi-Loaded Multi-Span Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.0 IN x 6.0 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 15.0%
Controlling Factor: Shear
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.05
0.05
0.09
IN L/1455
in
IN L/758
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
974
875
1849
0.81
lb
lb
lb
in
B
2784
2498
5282
2.32
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Live Load Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
6
0
6
1.00
1
0.05
0.00
ft
ft
ft
Center
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.5 Ft from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Controlling Shear:
At a distance d from right support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
7230 ft-lb
-4838 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2400
265
1800
650
psi
psi
ksi
psi
Adjusted
36.15
27.39
67.32
7230
-4838
in3
in2
in4
ft-lb
lb
Req'd
47.25
31.5
212.63
9450
5565
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
TR3
1
UNIFORM LOADS
Uniform Live Load
Uniform Dead Load
Beam Self Weight
Total Uniform Load
0
0
7
7
plf
plf
plf
plf
Center
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
2900
2822
4.5
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.
TRAPEZOIDAL LOADS - CENTER SPAN
Load Number
Left Live Load
Left Dead Load
Right Live Load
Right Dead Load
Load Start
Load End
Load Length
63
38
63
38
0
6
6
plf
plf
plf
plf
ft
ft
ft
One
0
108
0
108
4.5
6
1.5
plf
plf
plf
plf
ft
ft
ft
Two
320
80
320
80
4.5
6
1.5
plf
plf
plf
plf
ft
ft
ft
Three
NOTES
Page 101 of 132
Project: Wyndstone Gravity - Building 1
Location: SF08
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:30 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 484.0%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.01
0.02
IN L/5856
in
IN L/3357
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
225
167
392
0.18
lb
lb
lb
in
B
225
167
392
0.18
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
6
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
589 ft-lb
314 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
5.25
2.27
7.95
589
314
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
1
25
15
2
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
6
6
75
56
131
ft
plf
plf
plf
plf
NOTES
Page 102 of 132
Project: Wyndstone Gravity - Building 1
Location: SF09
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:31 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 3.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 325.1%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.00
0.00
0.01
IN L/8895
in
IN L/4888
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
593
486
1079
0.49
lb
lb
lb
in
B
593
486
1079
0.49
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
3
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
809 ft-lb
-647 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
7.21
4.69
5.46
809
-647
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
w
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
2
psf
psf
ft
Side 1
25
15
1
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
2
108
psf
psf
ft
plf
Side 1
40
20
6
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
75
50
320
160
6
395
324
719
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 103 of 132
Project: Wyndstone Gravity - Building 1
Location: SF10
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:31 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
1.75 IN x 11.875 IN x 9.0 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 35.5%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.13
0.12
0.25
IN L/804
in
IN L/430
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1800
1567
3367
2.75
lb
lb
lb
in
B
1800
1567
3367
2.75
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
9
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.00
Fv =
Cd=1.15
E =
Fc - ┴ =
7576 ft-lb
-2694 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2994
328
1800
700
psi
psi
ksi
psi
Adjusted
30.36
12.33
136.34
7576
-2694
in3
in2
in4
ft-lb
lb
Req'd
41.13
20.78
244.21
10262
4541
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B9 ft
w
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
7
psf
psf
ft
Side 1
25
15
1
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
5
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
200
134
200
100
6
400
348
748
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 104 of 132
Project: Wyndstone Gravity - Building 1
Location: SF11
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:31 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 3.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 238.3%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.00
0.01
IN L/6756
in
IN L/4473
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
780
398
1178
0.54
lb
lb
lb
in
B
780
398
1178
0.54
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
3
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.30
Fv =
Cd=1.00
E =
Fc - ┴ =
884 ft-lb
707 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1170
180
1600
625
psi
psi
ksi
psi
Adjusted
9.06
5.89
5.96
884
707
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
2989
3045
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
13
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
520
260
6
786
plf
plf
plf
plf
NOTES
Page 105 of 132
Project: Wyndstone Gravity - Building 1
Location: SF12
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:32 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 3.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 160.8%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.01
0.01
IN L/6006
in
IN L/2999
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
878
880
1758
0.80
lb
lb
lb
in
B
878
880
1758
0.80
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
3
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1318 ft-lb
1054 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
11.76
7.64
8.9
1318
1054
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
w
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
10
psf
psf
ft
Side 1
25
15
7
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
2
216
psf
psf
ft
plf
Side 1
40
20
2
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
425
285
160
80
6
585
587
1172
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 106 of 132
Project: Wyndstone Gravity - Building 1
Location: SF13
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:32 PM
Multi-Loaded Multi-Span Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 13.75 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 205.3%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.11
0.08
0.19
IN L/1479
in
IN L/852
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
3716
3185
6901
2.82
lb
lb
lb
in
B
669
465
1134
0.46
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Live Load Duration Factor
Notch Depth
13.75
0
13.75
1.00
0.00
ft
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
5.22 Ft from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Controlling Shear:
At a distance d from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
4870 ft-lb
-2587 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
22.45
13.61
137.51
4870
-2587
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.75 ft
w
1
UNIFORM LOADS
Uniform Live Load
Uniform Dead Load
Beam Self Weight
Total Uniform Load
80
40
12
132
plf
plf
plf
plf
Center
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
3285
2933
0.5
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 107 of 132
Project: Wyndstone Gravity - Building 1
Location: SF14
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:32 PM
Multi-Loaded Multi-Span Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 13.75 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 468.9%
Controlling Factor: Deflection
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.07
0.05
0.12
IN L/2255
in
IN L/1365
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1675
1127
2802
1.14
lb
lb
lb
in
B
550
358
908
0.37
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Live Load Duration Factor
Notch Depth
13.75
0
13.75
1.00
0.00
ft
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
6.88 Ft from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Controlling Shear:
At a distance d from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
3122 ft-lb
781 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
14.39
4.11
85.85
3122
781
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.75 ft
w
1
UNIFORM LOADS
Uniform Live Load
Uniform Dead Load
Beam Self Weight
Total Uniform Load
80
40
12
132
plf
plf
plf
plf
Center
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1125
769
0
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 108 of 132
Project: Wyndstone Gravity - Building 1
Location: SF15
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:33 PM
Multi-Loaded Multi-Span Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 13.75 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 268.6%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.11
0.07
0.18
IN L/1543
in
IN L/936
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1694
1282
2976
1.21
lb
lb
lb
in
B
1725
988
2713
1.11
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Live Load Duration Factor
Notch Depth
13.75
0
13.75
1.00
0.00
ft
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
7.01 Ft from left support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Controlling Shear:
At a distance d from right support of span 2 (Center Span)
Created by combining all dead loads and live loads on span(s) 2
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
4321 ft-lb
-2143 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
19.92
11.28
125.22
4321
-2143
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.75 ft
w
1 2
UNIFORM LOADS
Uniform Live Load
Uniform Dead Load
Beam Self Weight
Total Uniform Load
80
40
12
132
plf
plf
plf
plf
Center
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1119
923
0.5
lb
lb
ft
One *
1200
630
13
lb
lb
ft
Two *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 109 of 132
Project: Wyndstone Gravity - Building 1
Location: SF16
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:33 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 5.25 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 291.6%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.01
0.02
IN L/4875
in
IN L/3161
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1919
1068
2987
1.22
lb
lb
lb
in
B
3086
1706
4792
1.96
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
5.25
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.625 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
3409 ft-lb
-2017 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
15.71
10.61
37.08
3409
-2017
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B5.25 ft
1
2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
13
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
520
260
12
792
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
550
358
0.75
lb
lb
ft
One *
1725
988
5
lb
lb
ft
Two *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 110 of 132
Project: Wyndstone Gravity - Building 1
Location: SF17
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:33 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 4.25 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 42.6%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.02
0.01
0.03
IN L/2790
in
IN L/1840
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1955
1009
2964
1.36
lb
lb
lb
in
B
1955
1009
2964
1.36
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
4.25
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.125 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.20
Fv =
Cd=1.00
E =
Fc - ┴ =
3150 ft-lb
-1897 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1080
180
1600
625
psi
psi
ksi
psi
Adjusted
35
15.81
30.11
3150
-1897
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
4492
3885
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B4.25 ft
w
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
13
108
psf
psf
ft
plf
Side 1
40
10
10
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
920
468
7
1395
plf
plf
plf
plf
NOTES
Page 111 of 132
Project: Wyndstone Gravity - Building 1
Location: SF18
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:34 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 21.0 IN x 16.0 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 22.8%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.27
0.11
0.38
IN L/711
in
IN L/501
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
11200
4680
15880
4.44
lb
lb
lb
in
B
11200
4680
15880
4.44
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
16
0
1.00
1.5
0.17
0.00
ft
ft
Center
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
8.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00 Cv=0.96
Fv =
Cd=1.00
E =
Fc - ┴ =
63521 ft-lb
12704 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2316
265
1800
650
psi
psi
ksi
psi
Adjusted
329.19
71.91
2150.06
63521
12704
in3
in2
in4
ft-lb
lb
Req'd
404.25
115.5
4244.63
78004
20405
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B16 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
50
20
8
0
psf
psf
ft
plf
Side 1
50
20
20
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
1400
560
25
1985
plf
plf
plf
plf
NOTES
Page 112 of 132
Project: Wyndstone Gravity - Building 1
Location: SF19
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:34 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 16.5 IN x 8.25 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 28.5%
Controlling Factor: Shear
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.03
0.01
0.04
IN L/3270
in
IN L/2280
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
2109
955
3064
0.86
lb
lb
lb
in
B
9916
4217
14133
3.95
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
8.25
0
6
1.00
1.15
1
0.01
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.125 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
17404 ft-lb
-12478 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2400
265
1800
650
psi
psi
ksi
psi
Adjusted
87.02
70.63
226.64
17404
-12478
in3
in2
in4
ft-lb
lb
Req'd
249.56
90.75
2058.89
49913
16033
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B8.25 ft
1
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
0
0
0
psf
psf
ft
Side 1
0
0
0
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
50
20
1
0
psf
psf
ft
plf
Side 1
50
20
1
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
0
0
100
40
20
100
60
160
plf
plf
plf
plf
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
11200
4680
7
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.NOTES
Page 113 of 132
Project: Wyndstone Gravity - Building 1
Location: SF20
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:34 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
1.75 IN x 11.875 IN x 13.75 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 22.9%
Controlling Factor: Deflection
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.34
0.22
0.56
IN L/481
in
IN L/295
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1289
813
2102
1.72
lb
lb
lb
in
B
1289
813
2102
1.72
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
13.75
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
6.875 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.00
Fv =
Cd=1.15
E =
Fc - ┴ =
7227 ft-lb
1808 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2994
328
1800
700
psi
psi
ksi
psi
Adjusted
28.97
8.27
198.71
7227
1808
in3
in2
in4
ft-lb
lb
Req'd
41.13
20.78
244.21
10262
4541
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.75 ft
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
3.5
psf
psf
ft
Side 1
25
15
2
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
50
20
1
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
138
92
50
20
6
188
118
306
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 114 of 132
Project: Wyndstone Gravity - Building 1
Location: SF21
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:35 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 165.3%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.02
0.03
0.05
IN L/3904
in
IN L/1525
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
338
526
864
0.39
lb
lb
lb
in
B
338
526
864
0.39
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
6
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1296 ft-lb
-691 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
11.56
5.01
17.49
1296
-691
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
w
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
1
psf
psf
ft
Side 1
25
15
1.5
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
50
20
1
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
63
42
50
20
6
113
175
288
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 115 of 132
Project: Wyndstone Gravity - Building 1
Location: SF22
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:35 PM
Roof Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 5.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 147.7%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.02
0.01
0.04
IN L/2891
in
IN L/1709
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
656
454
1110
0.51
lb
lb
lb
in
B
656
454
1110
0.51
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Unbraced Length-Bottom
Roof Pitch
Roof Duration Factor
5
0
0
6
1.15
ft
ft
ft
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1388 ft-lb
844 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
12.38
6.11
15.61
1388
844
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B5 ft
ROOF LOADING
Side One:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Side Two:
Roof Live Load:
Roof Dead Load:
Tributary Width:
Wall Load:
LL =
DL =
TW =
LL =
DL =
TW =
WALL =
25
15
2
25
15
8.5
0
psf
psf
ft
psf
psf
ft
plf
SLOPE/PITCH ADJUSTED LENGTHS AND LOADS
Adjusted Beam Length:
Beam Self Weight:
Beam Uniform Live Load:
Beam Uniform Dead Load:
Total Uniform Load:
Ladj =
BSW =
wL =
wD_adj =
wT =
5
6
263
182
444
ft
plf
plf
plf
plf
NOTES
Page 116 of 132
Project: Wyndstone Gravity - Building 1
Location: SF23
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:35 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 18.0 IN x 13.75 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 22.9%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.21
0.19
0.40
IN L/793
in
IN L/417
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
9053
9143
18196
5.09
lb
lb
lb
in
B
8102
6397
14499
4.06
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
13.75
0
6
1.00
1.15
1
0.19
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
6.875 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.15 Cv=0.99
Fv =
Cd=1.15
E =
Fc - ┴ =
55295 ft-lb
15582 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2746
305
1800
650
psi
psi
ksi
psi
Adjusted
241.68
76.7
1540.19
55295
15582
in3
in2
in4
ft-lb
lb
Req'd
297
99
2673
67952
20114
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.75 ft
w
1
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
8.5
psf
psf
ft
Side 1
25
15
20.5
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
50
20
8
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
725
486
400
160
21
1125
776
1901
plf
plf
plf
plf
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1687
4872
3
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.NOTES
Page 117 of 132
Project: Wyndstone Gravity - Building 1
Location: SF24
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:36 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 49.5 IN x 36.0 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 21.7%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.47
0.34
0.81
IN L/920
in
IN L/532
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
23596
19826
43422
12.15
lb
lb
lb
in
B
22191
15766
37957
10.62
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
36
0
6
1.00
1.15
1
0.34
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
18.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.15 Cv=0.82
Fv =
Cd=1.15
E =
Fc - ┴ =
346595 ft-lb
-29727 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2254
305
1800
650
psi
psi
ksi
psi
Adjusted
1845.49
146.32
25080.18
346595
-29727
in3
in2
in4
ft-lb
lb
Req'd
2246.06
272.25
55590.05
421825
55312
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B36 ft
w
1
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
8.5
psf
psf
ft
Side 1
25
15
20.5
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
50
20
10
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
725
486
500
200
59
1225
853
2078
plf
plf
plf
plf
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1687
4872
3
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.NOTES
Page 118 of 132
Project: Wyndstone Gravity - Building 1
Location: Tall Wall To Right Of G.L. 11
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:36 PM
Wall
[2015 International Building Code(2015 NDS)]
1.5 IN x 5.5 IN x 16.0 FT @ 16 O.C.
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 48.4%
Controlling Factor: Combined Stress Factor
DEFLECTIONS
Deflection due to lateral loads only:
Live Load Deflection Criteria:
Defl = 0.71 IN = L/271
L/180
VERTICAL REACTIONS
Live Load:
Dead Load:
Total Load:
HORIZONTAL REACTIONS
Total Reaction at Top of Column:
Total Reaction at Bottom of Column:
Vert-LL-Rxn =
Vert-DL-Rxn =
Vert-TL-Rxn =
TL-Rxn-Top =
TL-Rxn-Bottom =
117
326
443
128
128
lb
lb
lb
lb
lb
WALL DATA
Total Stud Length:
Wall Dead Weight:
Unbraced Length (X-Axis) Lx:
Unbraced Length (Y-Axis) Ly:
Stud End Condition-K (e):
Axial Load Duration Factor
Lateral Load Duration Factor (Wind/Seismic)
16
12
16
0
1
1.00
1.33
ft
psf
ft
ft
STUD PROPERTIES
#2 - Douglas-Fir-Larch
Compressive Stress:
Bending Stress (X-X Axis):
Bending Stress (Y-Y Axis):
Modulus of Elasticity:
Stud Section (X-X Axis):
Stud Section (Y-Y Axis):
Area:
Section Modulus (X-X Axis):
Section Modulus (Y-Y Axis):
Slenderness Ratio:
Stud Calculations (Controlling Case Only):
Controlling Load Case: Axial Dead Load and Lateral loads (D + W or E)
Actual Compressive Stress:
Allowable Compressive Stress:
Eccentricity Moment (X-X Axis):
Eccentricity Moment (Y-Y Axis):
Moment Due to Lateral Loads (X-X Axis):
Moment Due to Lateral Loads (Y-Y Axis):
Bending Stress Lateral Loads Only (X-X Axis):
Allowable Bending Stress (X-X Axis):
Bending Stress Lateral Loads Only (Y-Y Axis):
Allowable Bending Stress (Y-Y Axis):
Combined Stress Factor:
Fc =
Cd=1.33 Cf=1.10 Cp=0.19
Fbx =
Cd=1.33 CF=1.30 Cr=1.15 Cl=1.00
Fby =
Cd=1.33 CF=1.30 Cr=1.15
E =
1350
900
900
1600
psi
psi
psi
ksi
Base Values
Fc' =
Fbx' =
Fby' =
E' =
374
1790
1790
1600
psi
psi
psi
ksi
Adjusted
dx =
dy =
A =
Sx =
Sy =
Lex/dx =
Ley/dy =
Fc =
Fc' =
Mx-ex =
My-ey =
Mx =
My =
Fbx =
Fbx' =
Fby =
Fby' =
CSF =
5.5
1.5
8.25
7.56
2.06
34.91
0
40
374
0
0
512
0
812
1790
0
1790
0.52
in
in
in2
in3
in3
psi
psi
ft-lb
ft-lb
ft-lb
ft-lb
psi
psi
psi
psi
LOADING DIAGRAM
16 ft
A
B
w
WALL LOAD CALCULATOR
Live Load Dead Load Tributary Width
Load Tracker:
Roof:
Upper Floor:
Upper Floor Height:
Middle Floor:
Middle Floor Height:
Calculated Load:
LL =
LL =
LL =
LL =
LL =
DL =
DL =
DL =
DL =
DL =
TA =
TA =
TA =
0
25
40
0
40
0
87.5
0
15
10
10
244.5
3.5
0
0
plf
psf
psf
ft
psf
ft
plf
plf
psf
psf
psf
plf
ft
ft
ft
AXIAL LOADING
Live Load:
Dead Load:
Total Axial Load:
LATERAL LOADING (Dy Face)
Uniform Lateral Load:
PL =
PD =
PT =
wL-Lat =
88
245
332
12
plf
plf
plf
psf
NOTES
Page 119 of 132
Project: Wyndstone Gravity - Building 1
Location: TF01
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:36 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 9.25 IN x 7.5 FT Pressure Treated
#2 - Hem-Fir - Dry Use
Section Adequate By: 31.9%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.05
0.09
IN L/2003
in
IN L/985
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
675
698
1373
0.97
lb
lb
lb
in
B
675
698
1373
0.97
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
7.5
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Hem-Fir
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.20 Ci=0.80
Fv =
Cd=1.00 Ci=0.80
E =
Ci=0.95
Fc - ┴ =
2574 ft-lb
1098 lb
850
150
1300
405
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
816
120
1235
405
psi
psi
ksi
psi
Adjusted
37.85
13.73
56.26
2574
1098
in3
in2
in4
ft-lb
lb
Req'd
49.91
32.38
230.84
3394
2590
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B7.5 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
60
60
3
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
180
180
6
366
plf
plf
plf
plf
NOTES
Page 120 of 132
Project: Wyndstone Gravity - Building 1
Location: TF02
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:37 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 24.5%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.05
0.09
IN L/1996
in
IN L/823
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
660
941
1601
0.73
lb
lb
lb
in
B
660
941
1601
0.73
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
6
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.30
Fv =
Cd=1.00
E =
Fc - ┴ =
2401 ft-lb
1280 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1170
180
1600
625
psi
psi
ksi
psi
Adjusted
24.62
10.67
32.4
2401
1280
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
2989
3045
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
w
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
1
108
psf
psf
ft
plf
Side 1
60
60
3
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
220
308
6
534
plf
plf
plf
plf
NOTES
Page 121 of 132
Project: Wyndstone Gravity - Building 1
Location: TF03
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:37 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 6.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 282.9%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.02
0.03
IN L/MAX
in
IN L/2531
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
120
401
521
0.24
lb
lb
lb
in
B
120
401
521
0.24
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
6
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.30
Fv =
Cd=1.00
E =
Fc - ┴ =
781 ft-lb
416 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1170
180
1600
625
psi
psi
ksi
psi
Adjusted
8.01
3.47
10.54
781
416
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
2989
3045
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
w
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
1
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
40
128
6
174
plf
plf
plf
plf
NOTES
Page 122 of 132
Project: Wyndstone Gravity - Building 1
Location: TF04
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:37 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 5.0 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 595.9%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.00
0.01
IN L/7816
in
IN L/5124
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1200
630
1830
0.75
lb
lb
lb
in
B
1200
630
1830
0.75
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
5
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
2288 ft-lb
1135 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
10.55
5.97
22.88
2288
1135
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B5 ft
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
0
0
0
psf
psf
ft
Side 1
0
0
0
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
12
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
0
0
480
240
12
480
252
732
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 123 of 132
Project: Wyndstone Gravity - Building 1
Location: TF05
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:38 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
5.25 IN x 11.875 IN x 13.25 FT
2.0E Parallam - iLevel Trus Joist
Section Adequate By: 35.8%
Controlling Factor: Deflection
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.26
0.23
0.49
IN L/614
in
IN L/326
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
3502
3136
6638
1.69
lb
lb
lb
in
B
4521
3671
8192
2.08
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
13.25
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
2.0E Parallam - iLevel Trus Joist
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
6.625 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.00
Fv =
Cd=1.15
E =
Fc - ┴ =
22456 ft-lb
-7282 lb
2900
290
2000
750
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
3339
334
2000
750
psi
psi
ksi
psi
Adjusted
80.71
32.75
539.42
22456
-7282
in3
in2
in4
ft-lb
lb
Req'd
123.39
62.34
732.62
34332
13861
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B13.25 ft
w
1
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
9
psf
psf
ft
Side 1
25
15
10
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
1
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
475
319
40
20
19
515
466
981
plf
plf
plf
plf
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1200
630
12.25
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 124 of 132
Project: Wyndstone Gravity - Building 1
Location: TF06
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:38 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 5.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 34.7%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.04
0.03
0.06
IN L/1696
in
IN L/929
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1119
923
2042
0.93
lb
lb
lb
in
B
1119
923
2042
0.93
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
5
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
2552 ft-lb
-1552 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
22.76
11.25
28.71
2552
-1552
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B5 ft
w
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
5
psf
psf
ft
Side 1
25
15
2.5
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
6.5
108
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
188
126
260
130
6
448
369
817
plf
plf
plf
plf
plf
plf
plf
plf
NOTES
Page 125 of 132
Project: Wyndstone Gravity - Building 1
Location: TF07
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:38 PM
Combination Roof And Floor Beam
[2015 International Building Code(2015 NDS)]
3.5 IN x 7.25 IN x 3.0 FT
#2 - Douglas-Fir-Larch - Dry Use
Section Adequate By: 54.0%
Controlling Factor: Shear
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.00
0.01
IN L/6717
in
IN L/3564
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
367
320
687
0.31
lb
lb
lb
in
B
3285
2933
6218
2.84
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Roof Pitch
Floor Duration Factor
Roof Duration Factor
Notch Depth
3
0
6
1.00
1.15
0.00
ft
ft
Center
:12
MATERIAL PROPERTIES
#2 - Douglas-Fir-Larch
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
1.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.15 CF=1.30
Fv =
Cd=1.15
E =
Fc - ┴ =
1543 ft-lb
-2274 lb
900
180
1600
625
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
1346
207
1600
625
psi
psi
ksi
psi
Adjusted
13.76
16.48
7.48
1543
-2274
in3
in2
in4
ft-lb
lb
Req'd
30.66
25.38
111.15
3438
3502
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B3 ft
1
ROOF LOADING
Roof Live Load
Roof Dead Load
Roof Tributary Width
RLL =
RDL =
RTW =
25
15
1
psf
psf
ft
Side 1
25
15
1
psf
psf
ft
Side 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
0
0
0
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Roof Uniform Live Load:
Roof Uniform Dead Load:
Floor Uniform Live Load:
Floor Uniform Dead Load:
Beam Self Weight:
Combined Uniform Live Load:
Combined Uniform Dead Load:
Combined Uniform Total Load:
wL-roof =
wD-roof =
wL-floor =
wD-floor =
BSW =
wL =
wD =
wT =
50
34
0
0
6
50
39
89
plf
plf
plf
plf
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
3502
3136
2.75
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 126 of 132
Project: Wyndstone Gravity - Building 1
Location: TF08
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:39 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 5.0 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 568.5%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.00
0.01
IN L/7503
in
IN L/4923
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1250
655
1905
0.78
lb
lb
lb
in
B
1250
655
1905
0.78
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
5
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
2.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
2382 ft-lb
1181 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
10.98
6.22
23.81
2382
1181
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B5 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
12.5
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
500
250
12
762
plf
plf
plf
plf
NOTES
Page 127 of 132
Project: Wyndstone Gravity - Building 1
Location: TF09
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:39 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
( 2 ) 1.75 IN x 11.875 IN x 6.0 FT
1.8E-2600F - APA EWS LVL Stress Classes
Section Adequate By: 795.8%
Controlling Factor: Shear
CAUTIONS
* Laminations are to be fully connected to provide uniform transfer of loads to all members
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.01
0.01
0.01
IN L/7754
in
IN L/5024
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
840
456
1296
0.53
lb
lb
lb
in
B
840
456
1296
0.53
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Notch Depth
6
0
1.00
0.00
ft
ft
Center
MATERIAL PROPERTIES
1.8E-2600F - APA EWS LVL Stress Classes
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
3.0 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Cd=1.00 CF=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
1945 ft-lb
-882 lb
2600
285
1800
700
psi
psi
ksi
psi
Base Values
Fb' =
Fv' =
E' =
Fc - ┴' =
2603
285
1800
700
psi
psi
ksi
psi
Adjusted
8.96
4.64
23.33
1945
-882
in3
in2
in4
ft-lb
lb
Req'd
82.26
41.56
488.41
17846
7897
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B6 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
40
20
7
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
280
140
12
432
plf
plf
plf
plf
NOTES
Page 128 of 132
Project: Wyndstone Gravity - Building 1
Location: TF10
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:39 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 9.0 IN x 9.5 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 135.6%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.11
0.05
0.16
IN L/1031
in
IN L/720
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1400
692
2092
0.59
lb
lb
lb
in
B
2300
834
3134
0.88
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
9.5
0
1.00
1
0.05
0.00
ft
ft
Center
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
6304 ft-lb
-2219 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2400
265
1800
650
psi
psi
ksi
psi
Adjusted
31.52
12.56
116.67
6304
-2219
in3
in2
in4
ft-lb
lb
Req'd
74.25
49.5
334.13
14850
8745
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B9.5 ft
1 2
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
100
60
2
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
200
120
11
331
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
900
142
5
lb
lb
ft
One *
900
142
9.25
lb
lb
ft
Two *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 129 of 132
Project: Wyndstone Gravity - Building 1
Location: TF11
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:40 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 9.0 IN x 9.5 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 66.1%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.16
0.06
0.22
IN L/710
in
IN L/527
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
2750
905
3655
1.02
lb
lb
lb
in
B
2750
905
3655
1.02
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
9.5
0
1.00
1
0.06
0.00
ft
ft
Center
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
8941 ft-lb
-2740 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2400
265
1800
650
psi
psi
ksi
psi
Adjusted
44.71
15.51
169.44
8941
-2740
in3
in2
in4
ft-lb
lb
Req'd
74.25
49.5
334.13
14850
8745
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B9.5 ft
1
23
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
100
60
2
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
200
120
11
331
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1800
284
4.75
lb
lb
ft
One *
900
142
9.25
lb
lb
ft
Two *
900
142
0.25
lb
lb
ft
Three *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 130 of 132
Project: Wyndstone Gravity - Building 1
Location: TF12
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:40 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 10.5 IN x 15.0 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 52.5%
Controlling Factor: Deflection
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.30
0.19
0.49
IN L/604
in
IN L/366
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1875
1219
3094
0.87
lb
lb
lb
in
B
1875
1219
3094
0.87
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
15
0
1.00
1
0.19
0.00
ft
ft
Center
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
7.5 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
11602 ft-lb
2785 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2400
265
1800
650
psi
psi
ksi
psi
Adjusted
58.01
15.76
348.01
11602
2785
in3
in2
in4
ft-lb
lb
Req'd
101.06
57.75
530.58
20213
10203
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B15 ft
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
100
60
2.5
0
psf
psf
ft
plf
Side 1
0
0
0
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
250
150
13
413
plf
plf
plf
plf
NOTES
Page 131 of 132
Project: Wyndstone Gravity - Building 1
Location: TF13
page
of
Exodus Engineering
1321 Grand Ave
Centralia, WA 98531
StruCalc Version 10.0.1.6 11/7/2019 2:30:40 PM
Uniformly Loaded Floor Beam
[2015 International Building Code(2015 NDS)]
5.5 IN x 10.5 IN x 9.5 FT
24F-V4 - Visually Graded Western Species - Dry Use
Section Adequate By: 95.9%
Controlling Factor: Moment
DEFLECTIONS
Live Load
Dead Load
Total Load
Live Load Deflection Criteria: L/360 Total Load Deflection Criteria: L/240
0.09
0.06
0.15
IN L/1220
in
IN L/737
Center
REACTIONS
Live Load
Dead Load
Total Load
Bearing Length
A
1641
1079
2720
0.76
lb
lb
lb
in
B
2134
1399
3533
0.99
lb
lb
lb
in
BEAM DATA
Span Length
Unbraced Length-Top
Floor Duration Factor
Camber Adj. Factor
Camber Required
Notch Depth
9.5
0
1.00
1
0.06
0.00
ft
ft
Center
MATERIAL PROPERTIES
24F-V4 - Visually Graded Western Species
Bending Stress:
Shear Stress:
Modulus of Elasticity:
Comp. ┴ to Grain:
Controlling Moment:
4.75 ft from left support
Created by combining all dead and live loads.
Controlling Shear:
At a distance d from support.
Created by combining all dead and live loads.
Comparisons with required sections:
Section Modulus:
Area (Shear):
Moment of Inertia (deflection):
Moment:
Shear:
Fb =
Fb_cmpr =
Cd=1.00
Fv =
Cd=1.00
E =
Fc - ┴ =
10320 ft-lb
-3249 lb
2400
1850
265
1800
650
psi
psi
psi
ksi
psi
Base Values
Controlled by:
Fb' =
Fv' =
E' =
Fc - ┴' =
2400
265
1800
650
psi
psi
ksi
psi
Adjusted
51.6
18.39
172.77
10320
-3249
in3
in2
in4
ft-lb
lb
Req'd
101.06
57.75
530.58
20213
10203
in3
in2
in4
ft-lb
lb
Provided
LOADING DIAGRAM
A B9.5 ft
1
FLOOR LOADING
Floor Live Load
Floor Dead Load
Floor Tributary Width
Wall Load
FLL =
FDL =
FTW =
WALL =
100
60
1
0
psf
psf
ft
plf
Side 1
100
60
1
psf
psf
ft
Side 2
BEAM LOADING
Beam Total Live Load:
Beam Total Dead Load:
Beam Self Weight:
Total Maximum Load:
wL =
wD =
BSW =
wT =
200
120
13
333
plf
plf
plf
plf
POINT LOADS - CENTER SPAN
Load Number
Live Load
Dead Load
Location
1875
1219
6
lb
lb
ft
One *
* Load obtained from Load Tracker. See Summary Report for details.
NOTES
Page 132 of 132