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Home My WebLink AboutCLUBHOUSE STRUCTURAL CALCS - 18-00469 - Thomson Farms the Grove - Clubhouse______________________________________________________________________________________________________________ MJSE | 5673 S. REDWOOD RD., STE# 22, SALT LAKE CITY, UTAH 84123 PH 801.905.1097 STRUCTURAL CALCULATIONS Thomson Farms Clubhouse 472 N Yellowstone Hwy. Rexburg, ID PREPARED FOR: Gould Plus Architects Cory Ferguson Draper, Utah August 13, 2018 08/13/2018 BASIS FOR DESIGN 1.Govering Building Code International Building Code 2015 2.Risk Category II 3.Floor Live Loads • Uniformly Distributed Loads • Residential 40 psf 4.Roof Snow Load • Ground Snow Load P/g = 43 psf • Flat Roof Snow Load P/f = 30 psf • Snow Exposure Factor C/e = 1.0 • Thermal Factor C/t = 1.0 • Snow Load Importance Factor I/Snow = 1.0 5.Wind Load • Basic Wind Speed (3 Second Gust) 115 mph • Wind Exposure C • Internal Pressure Coefficient ± 0.18 6.Seismic Design Criteria • Mapped Spectral Response Accelerations • Short Period Acceleration S/S = 0.447 • 1-Second Acceleration S/1 = 0.157 • Site Class (Soil Profile) D • Spectral Response Coefficients • Short Period Acceleration S/DS = 0.430 • 1-Second Acceleration S/D1 = 0.228 • Seismic Importance Factor I/Seismic = 1.0 • Seismic Design Category D • Effective Structural Seismic Weight W • Basic Seismic Force Resisting System Light Framed Wood Shearwalls • Response Modification Coefficient R= 6 • System Over-Strength Factor Ω/0 = 2.5 • Deflection Amplification Factor C/D = 4 • Design Base Shear V = C/S*W = 0.066W • Analysis Procedure Equivalent Lateral Force 01: Level Member Name Results Current Solution Comments Recreation Room Timbers Passed 3 Piece(s) 1 3/4" x 16" 2.0E Microllam® LVL Roof Transition Beam Passed 3 Piece(s) 1 3/4" x 18" 2.0E Microllam® LVL Upper Roof Joists Passed 1 Piece(s) 2 x 6 Douglas Fir-Larch No. 2 @ 24" OC B2 Header Passed 3 Piece(s) 2 x 10 Douglas Fir-Larch No. 2 B1 Header Passed 2 Piece(s) 2 x 10 Douglas Fir-Larch No. 2 B3 Header Passed 3 Piece(s) 1 3/4" x 9 1/2" 2.0E Microllam® LVL Rexburg Clubhouse.4te JOB SUMMARY REPORT Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 1 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes 3 piece(s) 1 3/4" x 16" 2.0E Microllam® LVL • Blocking Panels are assumed to carry no loads applied directly above them and the full load is applied to the member being designed. • At hanger supports, the Total Bearing dimension is equal to the width of the material that is supporting the hanger • ¹ See Connector grid below for additional information and/or requirements. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Roof Live Snow Total Accessories 1 - Beveled Plate - DF 3.50" 3.50" 1.50" 1561 1587 2778 5926 Blocking 2 - Hanger on 16" DF beam 3.50" Hanger¹ 1.50" 1568 1602 2804 5974 See note ¹ All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs) 4285 @ 26 3 8 5906 (1.50") Passed (73%) -- 1.0 D + 1.0 S (All Spans) Shear (lbs) 3861 @ 25 0 0 18354 Passed (21%) 1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs) 27985 @ 13 2 12 53672 Passed (52%) 1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in) 0.677 @ 13 2 12 0.898 Passed (L/477) -- 1.0 D + 1.0 S (All Spans) Total Load Defl. (in)1.058 @ 13 2 12 1.346 Passed (L/306) -- 1.0 D + 1.0 S (All Spans) System : Roof Member Type : Drop Beam Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Member Pitch: 3/12 •Deflection criteria: LL (L/360) and TL (L/240). •Top Edge Bracing (Lu): Top compression edge must be braced at 12 8 0 o/c unless detailed otherwise. •Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 27 1 0 o/c unless detailed otherwise. Level, Recreation Room TimbersMEMBER REPORT PASSED Connector: Simpson Strong-Tie Connectors Support Model Seat Length Top Nails Face Nails Member Nails Accessories 2 - Face Mount Hanger Connector not found N/A N/A N/A N/A Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by Forte Software Operator Weyerhaeuser Notes Tributary Dead Roof Live Snow Loads Location (Side)Width (0.90)(non-snow: 1.25)(1.15)Comments 0 - Self Weight (PLF)0 0 0 to 26 3 8 N/A 24.5 1 - Uniform (PSF)0 0 0 to 26 7 0 6 0 0 15.0 20.0 35.0 Roof Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 2 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes 3 piece(s) 1 3/4" x 18" 2.0E Microllam® LVL • Blocking Panels are assumed to carry no loads applied directly above them and the full load is applied to the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Column - DF 5.50" 5.50" 3.29" 4361 8584 12945 Blocking 2 - Column Cap - steel 8.50" 8.50" 8.32" 11256 21523 32779 Blocking 3 - Column - DF 5.50" 5.50" 2.00" 2348 5535 7883 Blocking All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs) 32779 @ 16 9 12 33469 (8.50") Passed (98%) -- 1.0 D + 1.0 S (All Spans) Shear (lbs) 14639 @ 14 11 8 20648 Passed (71%) 1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs) -48925 @ 16 9 12 66849 Passed (73%) 1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in) 0.281 @ 7 10 8 0.549 Passed (L/705) -- 1.0 D + 1.0 S (Alt Spans) Total Load Defl. (in)0.415 @ 7 9 13 0.824 Passed (L/476) -- 1.0 D + 1.0 S (Alt Spans) System : Floor Member Type : Drop Beam Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD •Deflection criteria: LL (L/360) and TL (L/240). •Top Edge Bracing (Lu): Top compression edge must be braced at 8 8 0 o/c unless detailed otherwise. •Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 7 0 0 o/c unless detailed otherwise. Level, Roof Transition BeamMEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by Forte Software Operator Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 0 0 to 28 7 8 N/A 27.6 1 - Uniform (PSF)0 0 0 to 28 7 8 (Front)30 0 0 15.0 40.0 Residential - Living Areas 2 - Uniform (PSF)0 0 0 to 28 7 8 (Front)10 0 0 15.0 - Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 3 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes 1 piece(s) 2 x 6 Douglas Fir-Larch No. 2 @ 24" OC • Blocking Panels are assumed to carry no loads applied directly above them and the full load is applied to the member being designed. Bearing Loads to Supports (lbs) Supports Total Available Required Dead Roof Live Snow Total Accessories 1 - Stud wall - SPF 3.50" 3.50" 1.50" 152 152 265 569 Blocking 2 - Stud wall - SPF 3.50" 3.50" 1.50" 152 152 265 569 Blocking All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs) 417 @ 0 2 8 2231 (3.50") Passed (19%) -- 1.0 D + 1.0 S (All Spans) Shear (lbs) 335 @ 0 9 0 1139 Passed (29%) 1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs) 706 @ 3 9 8 975 Passed (72%) 1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in) 0.125 @ 3 9 8 0.239 Passed (L/689) -- 1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.196 @ 3 9 8 0.358 Passed (L/438) -- 1.0 D + 1.0 S (All Spans) System : Roof Member Type : Joist Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD Member Pitch: 0/12 •Deflection criteria: LL (L/360) and TL (L/240). •Top Edge Bracing (Lu): Top compression edge must be braced at 7 7 0 o/c unless detailed otherwise. •Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 7 7 0 o/c unless detailed otherwise. •A 15% increase in the moment capacity has been added to account for repetitive member usage. •Applicable calculations are based on NDS. Level, Upper Roof JoistsMEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by Forte Software Operator Weyerhaeuser Notes Dead Roof Live Snow Loads Location (Side)Spacing (0.90)(non-snow: 1.25)(1.15)Comments 1 - Uniform (PSF)0 0 0 to 7 7 0 24" 20.0 20.0 35.0 Roof Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 4 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes 3 piece(s) 2 x 10 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - DF 3.00" 3.00" 1.50" 335 570 905 None 2 - Trimmer - DF 3.00" 3.00" 1.50" 335 570 905 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs) 905 @ 0 1 8 8438 (3.00") Passed (11%) -- 1.0 D + 1.0 S (All Spans) Shear (lbs) 711 @ 1 0 4 5744 Passed (12%) 1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs) 2038 @ 4 9 0 6088 Passed (33%) 1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in) 0.042 @ 4 9 0 0.308 Passed (L/999+) -- 1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.066 @ 4 9 0 0.463 Passed (L/999+) -- 1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD •Deflection criteria: LL (L/360) and TL (L/240). •Top Edge Bracing (Lu): Top compression edge must be braced at 9 6 0 o/c unless detailed otherwise. •Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 9 6 0 o/c unless detailed otherwise. •Applicable calculations are based on NDS. Level, B2 HeaderMEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by Forte Software Operator Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 0 0 to 9 6 0 N/A 10.6 1 - Uniform (PSF)0 0 0 to 9 6 0 4 0 0 15.0 30.0 Residential - Living Areas Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 5 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes 2 piece(s) 2 x 10 Douglas Fir-Larch No. 2 Bearing Loads to Supports (lbs) Supports Total Available Required Dead Snow Total Accessories 1 - Trimmer - DF 3.00" 3.00" 1.50" 39 53 92 None 2 - Trimmer - DF 3.00" 3.00" 1.50" 39 53 92 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs) 91 @ 0 1 8 5625 (3.00") Passed (2%) -- 1.0 D + 1.0 S (All Spans) Shear (lbs) 38 @ 1 0 4 3830 Passed (1%) 1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs) 69 @ 1 9 0 4059 Passed (2%) 1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in) 0.000 @ 1 9 0 0.108 Passed (L/999+) -- 1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.000 @ 1 9 0 0.162 Passed (L/999+) -- 1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD •Deflection criteria: LL (L/360) and TL (L/240). •Top Edge Bracing (Lu): Top compression edge must be braced at 3 6 0 o/c unless detailed otherwise. •Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 3 6 0 o/c unless detailed otherwise. •Applicable calculations are based on NDS. Level, B1 HeaderMEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by Forte Software Operator Weyerhaeuser Notes Tributary Dead Snow Loads Location (Side)Width (0.90)(1.15)Comments 0 - Self Weight (PLF)0 0 0 to 3 6 0 N/A 7.0 1 - Uniform (PSF)0 0 0 to 3 6 0 1 0 0 15.0 30.0 Residential - Living Areas Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 6 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes 3 piece(s) 1 3/4" x 9 1/2" 2.0E Microllam® LVL Bearing Loads to Supports (lbs) Supports Total Available Required Dead Floor Live Snow Total Accessories 1 - Trimmer - DF 3.00" 3.00" 1.50" 770 195 1250 2215 None 2 - Trimmer - DF 3.00" 3.00" 1.50" 770 195 1250 2215 None All locations are measured from the outside face of left support (or left cantilever end).All dimensions are horizontal.;Drawing is Conceptual Design Results Actual @ Location Allowed Result LDF Load: Combination (Pattern) Member Reaction (lbs) 2020 @ 0 1 8 11813 (3.00") Passed (17%) -- 1.0 D + 1.0 S (All Spans) Shear (lbs) 1973 @ 1 0 8 10898 Passed (18%) 1.15 1.0 D + 1.0 S (All Spans) Moment (Ft-lbs) 6077 @ 3 3 0 20312 Passed (30%) 1.15 1.0 D + 1.0 S (All Spans) Live Load Defl. (in) 0.038 @ 3 3 0 0.208 Passed (L/999+) -- 1.0 D + 1.0 S (All Spans) Total Load Defl. (in)0.060 @ 3 3 0 0.313 Passed (L/999+) -- 1.0 D + 1.0 S (All Spans) System : Wall Member Type : Header Building Use : Residential Building Code : IBC 2015 Design Methodology : ASD •Deflection criteria: LL (L/360) and TL (L/240). •Top Edge Bracing (Lu): Top compression edge must be braced at 6 6 0 o/c unless detailed otherwise. •Bottom Edge Bracing (Lu): Bottom compression edge must be braced at 6 6 0 o/c unless detailed otherwise. Level, B3 HeaderMEMBER REPORT PASSED Weyerhaeuser warrants that the sizing of its products will be in accordance with Weyerhaeuser product design criteria and published design values. Weyerhaeuser expressly disclaims any other warranties related to the software. Use of this software is not intended to circumvent the need for a design professional as determined by the authority having jurisdiction. The designer of record, builder or framer is responsible to assure that this calculation is compatible with the overall project. Accessories (Rim Board, Blocking Panels and Squash Blocks) are not designed by this software. Products manufactured at Weyerhaeuser facilities are third-party certified to sustainable forestry standards. Weyerhaeuser Engineered Lumber Products have been evaluated by ICC ES under technical reports ESR-1153 and ESR-1387 and/or tested in accordance with applicable ASTM standards. For current code evaluation reports, Weyerhaeuser product literature and installation details refer to www.weyerhaeuser.com/woodproducts/document-library. The product application, input design loads, dimensions and support information have been provided by Forte Software Operator Weyerhaeuser Notes Tributary Dead Floor Live Snow Loads Location (Side)Width (0.90)(1.00)(1.15)Comments 0 - Self Weight (PLF)0 0 0 to 6 6 0 N/A 14.5 1 - Uniform (PSF)0 0 0 to 6 6 0 2 0 0 15.0 30.0 - Residential - Living Areas 2 - Point (lb)3 3 0 N/A 1250 - 2500 Forte v5.3, Design Engine: V7.0.0.5 6/18/2018 9:40:07 AM Page 7 of 7 Rexburg Clubhouse.4te Forte Software Operator Brendon Haywood MJ Structural Engineers (801) 905-1097 bhaywood@mjstructuralengineers.com Job Notes Sht Number: Job Number:-- Date:6/18/2018 By:BH Blue Cells Must be Entered Manually WOOD COLUMNS STEEL COLUMNS Species & Grade Species & Grade Designation Designation Description Description Lux (ft)Lux (ft) Luy (ft)Luy (ft) P or T DL | LL(kip) 0.03 0.07 0.50 0.75 0.15 0.25 P or T DL | LL(kip) Pu or Tu (kip)Pu or Tu (kip) ex | ey ex | ey Column g (pcf) | SW (plf)34.0 1.9 42.0 18.9 42.0 4.7 Column g (pcf) | SW (plf) wx | wy (plf) 30.00 65.00 5.00 wx | wy (plf) wU_x | wU_y (plf)30.00 65.00 5.00 wU_x | wU_y (plf) wpart_x | wpart_y (plf)wpart_x | wpart_y (plf) Strt Dist From Bot Strt Dist From Bot End Dist From Bot End Dist From Bot wpart_x | wpart_y (plf)wpart_x | wpart_y (plf) PL1_x | PL1_y (lbs)PL1_x | PL1_y (lbs) Location x-x | y-y (ft)Location x-x | y-y (ft) PL1_x | PL1_y (lbs)PL1_x | PL1_y (lbs) PL2_x | PL2_y (lbs)PL2_x | PL2_y (lbs) Location x-x | y-y (ft)Location x-x | y-y (ft) PL2_x | PL2_y (lbs)PL2_x | PL2_y (lbs) CD_Vert | CD_Lat 1.15 1.60 1.15 1.60 1.15 1.60 1.00 1.60 1.00 1.60 Cb | D.N.A. Cr | Wet Use (Y/N) 1.15 1.00 1.15 1.00 1.15 1.00 1.15 1.00 1.00 1.00 U | Ag-An (in2) Ct | Ci 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 D.N.A. CT | Cfu 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Kz | D.N.A. Kex | Key 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Kx | Ky % Wcc for DDDD % Wcc for DDDD b | d (in) 1.5 5.5 1.75 9.25 1.75 9.25 bf | d (in) EX | EY (psi) 1,600,000.0 1,600,000.0 1,700,000.0 1,700,000.0 1,700,000.0 1,700,000.0 Ag | An (in) E'X | E'Y (psi)1,600,000 1,600,000 1,700,000 1,700,000 1,700,000 1,700,000 EX | EY (psi) Emin-x | Emin-y (psi) 580,000.0 580,000.0 860,000.0 860,000.0 860,000.0 860,000.0 rx | ry (in) E'min-x | E'min-y (psi) 580,000.0 580,000.0 860,000.0 860,000.0 860,000.0 860,000.0 Tny | Tnr (kips) CM-E | CM-Fc 1.00 1.00 1.00 1.00 1.00 1.00 lp-c FL | lr-c FL CM-b | CM-Fc_Perp 1.00 1.00 1.00 1.00 1.00 1.00 lp-c WEB | lr-c WEB CM-t | CF-c 1.00 1.10 0.00 1.00 0.00 1.00 bF/2tF or b/t | h/tW or h/t CV | CL 1.00 0.99 1.00 0.46 1.00 0.97 Qs-c | Qa-c Lex/d | Ley/b 30.5 8.0 37.6 41.1 40.2 6.9 KLx/rx | KLy/ry Le/(d or b) Max | c 50 0.80 50 0.90 50 0.90 KL/r Max | 4.71(E/Fy)½ fc | ft (psi) 12.1 0.0 19.3 0.0 24.7 0.0 Fcr | Fcr-FTB (ksi) Fc | FT (psi) 1350.00 575.00 3000.00 1650.00 3000.00 1650.00 W TY | W TR F'c | F't (psi) 474 727.38 412 1897.50 431 1897.50 Pn (Kips) | Wc PTL_ALL | TTL_ALL (kip)P = 3.91 T = 6.00 P = 26.68 T = 122.86 P = 6.98 T = 30.72 Pn/W | Tn/W (kip) Comp or Tension Comp or Tension ex (in) | ey (in) 0.000 0.000 0.000 0.000 0.000 0.000 ex (in) | ey (in) CF-b | D.N.A. 1.30 1.00 1.00 Mpx | Mpy (k*ft) Fbx | Fby (psi) 900.00 900.00 2676.29 2676.29 2676.29 2676.29 Mn LTB or WLB (k*ft) D.N.A. | D.N.A.Mn FLB (k*ft) IX | Iy (in4) 20.80 1.55 461.68 16.52 115.42 4.13 IX | Iy (in4) Lateral Rxn (lbs) x | y 210.0 0.0 942.5 0.0 77.5 0.0 Lateral Rxn (lbs) x | y Znail - PLT | Ceg/Ctn (lbs) 97.00 0.67 97.00 0.67 97.00 0.67 lp_FL-B | lr_FL-B Plate Nails/Mmbr 2.0 0.0 2.3 0.0 0.7 0.0 lp_WEB-B | lr_WEB-B A34 or A35 Req'd 1 A34 3 A35 1 A34 Lp | Lr (ft) F*bx | F'bx 2152.80 2128.67 4924.37 2258.88 4924.37 4796.89 Fy (ksi) | Wb F*by | F'by 2152.80 2152.80 4924.37 2258.88 4924.37 4796.89 Zx (in3) | Zy (in3) fbx | fby (psi)1166.28 0.00 821.43 0.00 288.81 0.00 fbx | fby (ksi) Sx | Sy (in3) 7.56 2.06 99.82 18.89 24.96 4.72 Sx | Sy (in3) MTL_Max (k-ft) 0.74 0.00 6.83 0.00 0.60 0.00 MTL_Max (k-ft) MTL_ALL (k-ft)1.3 0.4 18.8 3.6 10.0 1.9 Mn/W (k*ft) Bending Bending Max TL DDDD Ratio Max TL DDDD Ratio Allowable TL DDDD Allowable TL DDDD DTL_Max (in) 0.779 0.000 1.318 0.000 0.530 0.000 DTL_Max (in) DTL_ALL (in)1.12 1.12 1.45 1.45 1.55 1.55 DTL_ALL (in) Actual TL DDDD Actual TL DDDD Plate Material D.N.A. Fc_Perp | F'c_Perp (psi) 625.0 625.00 625.0 625.00 625.0 625.00 Fcr (ksi) | Jc/SxhO PALL (kip) | fc_Perp (psi)P = 5.16 12.12 P = 40.47 19.31 P = 10.12 24.71 D.N.A. Plate Bearing D.N.A. Le_Bending (ft) 2.06 25.76 12.09 53.36 2.06 57.04 Lu Bending (ft) RB | D.N.A. 7.77 20.94 8.64 Max | (H1-1a) or (H1-1b) FbE (psi)Tension or Compression CompOR Tens & Bend CompOR Tens & Bend Interaction Interaction Grade Class Shape Design of Wood Columns Based on the 2006 NDS Design of Steel Columns Based on the AISC 360-05 (With P-DDDD Effects on Displacement) Column 1 0.10 DF #2 Typical Exterior Wall (1) 2x6 14.0 1.0 29.0 1.25 2.6% Stressed 4.7% Stressed DF #2 5.7% Stressed 13821.811518.1 L/ 216 L/ 150 54.79% L/ 264 36.36% DF #2 L/ 240 2354.6 3.95% Adequate Adequate 6.71%56.19% Adequate 38.05% DF #2 3.09%1.94% DF #2DF #2 L/ 703 L/ 240 6.02% L/ 240 L/ 240 Interior Tall WallExterior Tall Wall 0.40 1.06.0 LVL 1.7ELVL 1.7E 31.0 Column 5Column 4Column 3 DIM LVL LVL (1) 1¾x9¼ LVL(4) 1¾x9¼ LVL Column 2 WOODWOODWOOD WOOD WOOD ASD Design 2006 NDS Wood Column Design with Bending and Ecc v 3.41 by B. Saxey 1:1 Exterior Walls Diaphragms Level Area (ft²)Weight (psf)Total Weight (lb.) Roof 1200 15 18000 Walls Level Length (ft)Height (ft)Weight (psf)Total Weight (lb.) Roof 80 5 80 32000 Total Level Weights Level Weight (lb.) Roof 50000 Site Soil Classification =SD Risk Category =II SDS =0.859 SD1 =0.487 h =15 ft Ct =0.02 x =0.75 Lateral force resisting system : Light Framed Wood Shearwalls Rx =6.5 Non-Bearing Wall System I =1.0 Tx = Cthn x = 0.152 sec Ty = Cthn x = 0.152 sec Base Shear x =SDS x I R Base Shear y =SDS x I R Max Base Shear =SD1 x I T x R Min Base Shear =0.04 W Static Base Shear Vx = 6.61 kip ok0.044 SDS x I x W = W = 0.87 W W W = 0.132 W Mass Calculation W = 0.132 Base Shear Calculations 2015 International Building Code Design Cat.=II Basic Wind Speed (mph)=115 Exposure Category=C Kzt =1 Kd =0.85 Height qz qz asd Windward Leeward Internal 15 24.5 14.7 9.98 6.24 2.64 20 25.9 15.5 10.57 6.60 2.80 25 27.1 16.2 11.04 6.90 2.92 30 28.2 16.9 11.51 7.19 3.05 40 29.9 18.0 12.21 7.63 3.23 50 31.4 18.8 12.80 8.00 3.39 60 32.5 19.5 13.27 8.29 3.51 70 33.7 20.2 13.74 8.59 3.64 80 34.8 20.9 14.21 8.88 3.76 90 35.7 21.4 14.56 9.10 3.85 100 36.3 21.8 14.79 9.25 3.92 120 37.7 22.6 15.38 9.61 4.07 140 39.1 23.5 15.97 9.98 4.23 160 40.0 24.0 16.32 10.20 4.32 180 41.2 24.7 16.79 10.49 4.44 200 42.0 25.2 17.14 10.71 4.54 250 44.0 26.4 17.96 11.23 4.76 300 45.8 27.5 18.67 11.67 4.94 350 47.2 28.3 19.26 12.03 5.10 400 48.6 29.2 19.84 12.40 5.25 450 49.8 29.9 20.31 12.70 5.38 500 50.9 30.6 20.78 12.99 5.50 Wind Design Values Wind Seismic Wall Area 7.01 1.5 1.1 540 3785.4 810 1.2 540 3785.4 810 2.1 565 3960.65 847.5 2.2 565 3960.65 847.5 3.1 565 3960.65 847.5 3.2 565 3960.65 847.5 4.1 540 3785.4 810 4.2 540 3785.4 810 5.31 1.5 A.1 565 3000.15 847.5 B.1 825 4380.75 1237.5 B.2 825 4380.75 1237.5 C.1 575 3053.25 862.5 C.2 1075 5708.25 1612.5 D.1 280 1486.8 420 D.2 280 1486.8 420 WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:1.1 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.810. lbs 3785.4 lbs 101.3 plf 473.2 plf 3785.4 lbs 88956.9 lbs-ft 11119.6 lbs 11035. lbs .89 in 3.57 in 4.03 in 23.5 DL 15.0 psf AR 2.9 OK 333.6 556.2 25780 11197. lbs HD Def..14 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 3"OK 6x8 HDU11 - 7.25 Ga=28. kip/in 23.5 Total DL 3,060.0 pds.OK OK 41.25 sqr in Anchor Bolt Demand 473 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..89 in 3.57 in 8 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:1.2 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.810. lbs 3785.4 lbs 101.3 plf 473.2 plf 3785.4 lbs 88956.9 lbs-ft 11119.6 lbs 11035. lbs .89 in 3.57 in 4.03 in 23.5 DL 15.0 psf AR 2.9 OK 333.6 556.2 25780 11197. lbs HD Def..14 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 3"OK 6x8 HDU11 - 7.25 Ga=28. kip/in 23.5 Total DL 3,060.0 pds.OK OK 41.25 sqr in Anchor Bolt Demand 473 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..89 in 3.57 in 8 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:2.1 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.847.5 lbs 3960.7 lbs 60.5 plf 282.9 plf 3960.7 lbs 47527.8 lbs-ft 3394.8 lbs 2558.5 lbs .36 in 1.45 in 2.06 in 12 DL 15.0 psf AR 0.9 OK 260.0 335.0 10315 2940. lbs HD Def..15 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 6"OK (2) 2x6 STHD10 - Corner Ga=15. kip/in 12 Total DL 2,940.0 pds.OK OK 16.5 sqr in Anchor Bolt Demand 283 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..36 in 1.45 in 14 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:2.2 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.847.5 lbs 3960.7 lbs 77. plf 360.1 plf 3960.7 lbs 47527.8 lbs-ft 4320.7 lbs 3712.1 lbs .53 in 2.11 in 2.06 in 12 DL 15.0 psf AR 1.1 OK 310.0 365.0 10315 3815. lbs HD Def..16 in NG Pier H (ft) Wall DL 15.0 psf 15/32 Sheathing With 8d @ 6"OK (2) 2x6 STHD14 - Corner Ga=13. kip/in 12 Total DL 2,310.0 pds.OK OK 16.5 sqr in Anchor Bolt Demand 360 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..53 in 2.11 in 11 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:2.5.1 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.847.5 lbs 3960.7 lbs 77. plf 360.1 plf 3960.7 lbs 47527.8 lbs-ft 4320.7 lbs 3712.1 lbs .39 in 1.57 in 2.06 in 12 DL 15.0 psf AR 1.1 OK 380.0 490.0 10315 3815. lbs HD Def..16 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 4"OK (2) 2x6 STHD14 - Corner Ga=22. kip/in 12 Total DL 2,310.0 pds.OK OK 16.5 sqr in Anchor Bolt Demand 360 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..39 in 1.57 in 11 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:3.1 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.847.5 lbs 3960.7 lbs 38.5 plf 180. plf 3960.7 lbs 53468.8 lbs-ft 2430.4 lbs 906.2 lbs .26 in 1.03 in 2.31 in 13.5 DL 15.0 psf AR 0.6 OK 260.0 335.0 10315 2940. lbs HD Def..15 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 6"OK (2) 2x6 STHD10 - Corner Ga=15. kip/in 13.5 Total DL 5,115.0 pds.OK OK 16.5 sqr in Anchor Bolt Demand 180 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..26 in 1.03 in 22 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:3.2 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.423.8 lbs 1980.3 lbs 70.6 plf 330.1 plf 1980.3 lbs 27724.6 lbs-ft 4620.8 lbs 4370.9 lbs .67 in 2.68 in 2.4 in 14 DL 15.0 psf AR 2.3 OK 265.7 349.8 10315 5645. lbs HD Def..12 in NG Pier H (ft) Wall DL 15.0 psf 15/32 Sheathing With 8d @ 6"OK (2) 2x6 HDU5 Ga=13. kip/in 14 Total DL 1,440.0 pds.OK OK 16.5 sqr in Anchor Bolt Demand 330 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..67 in 2.68 in 6 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:A.1 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 2.0 ft.847.5 lbs 3000.2 lbs 21.7 plf 76.9 plf 3000.2 lbs 40502. lbs-ft 1038.5 lbs . lbs .07 in .29 in 2.31 in 13.5 DL 15.0 psf AR 0.3 OK 260.0 335.0 5155 HD NOT REQ. HD Def.. in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 6"OK 2x6 Ga=15. kip/in 13.5 Total DL 9,067.5 pds.OK OK 8.25 sqr in Anchor Bolt Demand 77 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..07 in .29 in 39 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:B.2 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 13.0 ft.1237.5 lbs 4380.8 lbs 117.9 plf 417.2 plf 4380.8 lbs 91995.8 lbs-ft 8761.5 lbs 7481.6 lbs .69 in 2.74 in 3.6 in 21 DL 15.0 psf AR 2.0 OK 380.0 490.0 18905 7897. lbs HD Def..11 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 4"OK 6x6 HDU8-4.5 Ga=22. kip/in 21 Total DL 5,355.0 pds.OK OK 30.25 sqr in Anchor Bolt Demand 417 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..69 in 2.74 in 10.5 ft. long Double Sided WOOD SHEAR WALL DESIGN Project:Rexburg Clubhouse Description:C.2 Cum Net Wall Def. Def. Roof FV FW Sesismic Demand Wind Demand Frc. Mom. Compression Tension Def. w/Cd Allowable Overturning H (ft) DL trib width 13.0 ft.1612.5 lbs 5708.3 lbs 111.2 plf 393.7 plf 5708.3 lbs 119873.3 lbs-ft 8267.1 lbs 6246.1 lbs .58 in 2.32 in 3.6 in 21 DL 15.0 psf AR 1.4 OK 380.0 490.0 18905 7897. lbs HD Def..11 in OK Pier H (ft) Wall DL 15.0 psf 7/16 Sheathing With 8d @ 4"OK 6x6 HDU8-4.5 Ga=22. kip/in 21 Total DL 7,395.0 pds.OK OK 30.25 sqr in Anchor Bolt Demand 394 plf 1st Flr 5/8" Bolt @32"oc w/ 1-1/2" Sill Plate 558. plf OK Total Def..58 in 2.32 in 14.5 ft. long Double Sided Sh e a r w a l l D a t a W i n d S e i s m i c Wa l l S h e a t h i n g D e m a n d 5 1 6 p l f 1 1 0 p l f Wa l l L e n g t h 1 1 . 0 0 f t P i e r 1 S h e a r 4 0 5 l b s 1 0 1 p l f 15 / 3 2 S h e a t h i n g w / 8 d @ 4 " 533 plf 3 8 0 p l f Wa l l H e i g h t 10 . 0 0 f t Pi e r 2 S h e a r 4 0 5 l b s 1 0 1 p l f Pi e r 1 L e n g t h 4. 0 0 f t Ab o v e O p e n i n g S h e a r 3 3 1 l b s 1 1 0 p l f H o l d o w n D e m a n d 2 , 8 4 7 lbs 1 1 1 l b s Pi e r 2 L e n g t h 4. 0 0 f t Be l o w O p e n i n g S h e a r 4 0 5 l b s 1 0 1 p l f ST H D 1 0 - C o r n e r Op e n i n g H e i g h t 3. 0 0 f t T & C 7 3 6 l b s Op e n i n g W i d t h 3. 0 0 f t St r a p A b o v e O p e n i n g 1 6 6 l b s Co m p r e s s i o n D e m a n d 3 , 4 4 1 l b s 7 3 6 l b s He i g h t B e l o w O p e n i n g 4. 0 0 f t St r a p B e l o w O p e n i n g 1 5 2 l b s 2x 6 Se i s m i c F o r c e 81 0 l b s To t a l D L 2 , 0 9 0 l b s Wi n d F o r c e 3, 7 8 5 l b s Ab o v e W i n d o w S t r a p D e m a n d 7 7 4 l b s 1 6 6 l b s Wa l l D L 15 p s f CS 1 6 DL T r i p W i d t h 2. 0 0 f t Pi e r 1 S h e a r 1 , 8 9 3 l b s 4 7 3 p l f DL 20 p s f Pi e r 2 S h e a r 1 , 8 9 3 l b s 4 7 3 p l f B e l o w W i n d o w S t r a p D e m a nd 7 1 0 l b s 1 5 2 l b s Ab o v e O p e n i n g S h e a r 1 , 5 4 9 l b s 5 1 6 p l f CS 1 6 Be l o w O p e n i n g S h e a r 1 , 8 9 3 l b s 4 7 3 p l f As p e c t R a t i o . 8 : 1 T & C 3 , 4 4 1 l b s As p e c t R a t i o F a c t o r 1 S t r a p A b o v e O p e n i n g 7 7 4 l b s St r a p B e l o w O p e n i n g 7 1 0 l b s To t a l D L 2 , 0 9 0 l b s OK2,940 lbs 5,155 lbs In p u t OK OK Se i s m i c O u t p u t Wi n d O u t p u t OK 1,975 lbs 1,975 lbsOK Op e n i n g W i d t h Op e n i n g H e i g h t 3 f t Pi e r 1 L e n g t h 4. 0 0 f t Pi e r 2 L e n g t h 4. 0 0 f t 3. 0 0 f t Sh e a r w a l l D a t a W i n d S e i s m i c Wa l l S h e a t h i n g D e m a n d 5 1 6 p l f 1 1 0 p l f Wa l l L e n g t h 1 1 . 0 0 f t P i e r 1 S h e a r 4 0 5 l b s 1 0 1 p l f 15 / 3 2 S h e a t h i n g w / 8 d @ 4 " 533 plf 3 8 0 p l f Wa l l H e i g h t 10 . 0 0 f t Pi e r 2 S h e a r 4 0 5 l b s 1 0 1 p l f Pi e r 1 L e n g t h 4. 0 0 f t Ab o v e O p e n i n g S h e a r 3 3 1 l b s 1 1 0 p l f H o l d o w n D e m a n d 2 , 8 4 7 lbs 1 1 1 l b s Pi e r 2 L e n g t h 4. 0 0 f t Be l o w O p e n i n g S h e a r 4 0 5 l b s 1 0 1 p l f ST H D 1 0 - C o r n e r Op e n i n g H e i g h t 3. 0 0 f t T & C 7 3 6 l b s Op e n i n g W i d t h 3. 0 0 f t St r a p A b o v e O p e n i n g 1 6 6 l b s Co m p r e s s i o n D e m a n d 3 , 4 4 1 l b s 7 3 6 l b s He i g h t B e l o w O p e n i n g 4. 0 0 f t St r a p B e l o w O p e n i n g 1 5 2 l b s 2x 6 Se i s m i c F o r c e 81 0 l b s To t a l D L 2 , 0 9 0 l b s Wi n d F o r c e 3, 7 8 5 l b s Ab o v e W i n d o w S t r a p D e m a n d 7 7 4 l b s 1 6 6 l b s Wa l l D L 15 p s f CS 1 6 DL T r i p W i d t h 2. 0 0 f t Pi e r 1 S h e a r 1 , 8 9 3 l b s 4 7 3 p l f DL 20 p s f Pi e r 2 S h e a r 1 , 8 9 3 l b s 4 7 3 p l f B e l o w W i n d o w S t r a p D e m a nd 7 1 0 l b s 1 5 2 l b s Ab o v e O p e n i n g S h e a r 1 , 5 4 9 l b s 5 1 6 p l f CS 1 6 Be l o w O p e n i n g S h e a r 1 , 8 9 3 l b s 4 7 3 p l f As p e c t R a t i o . 8 : 1 T & C 3 , 4 4 1 l b s As p e c t R a t i o F a c t o r 1 S t r a p A b o v e O p e n i n g 7 7 4 l b s St r a p B e l o w O p e n i n g 7 1 0 l b s To t a l D L 2 , 0 9 0 l b s 5,155 lbs In p u t Se i s m i c O u t p u t OK 2,940 lbs OK 4. 0 0 f t 3. 0 0 f t 4. 0 0 f t OK Wi n d O u t p u t 1,975 lbs OK 1,975 lbs OK Op e n i n g H e i g h t 3 f t Pi e r 1 L e n g t h Op e n i n g W i d t h Pi e r 2 L e n g t h Sh e a r w a l l D a t a W i n d S e i s m i c Wa l l S h e a t h i n g D e m a n d 5 9 7 p l f 1 6 9 p l f Wa l l L e n g t h 1 1 . 0 0 f t P i e r 1 S h e a r 6 1 9 l b s 1 5 5 p l f 7/ 1 6 S h e a t h i n g w / 8 d @ 3 " 630 plf 4 5 0 p l f Wa l l H e i g h t 10 . 0 0 f t Pi e r 2 S h e a r 6 1 9 l b s 1 5 5 p l f Pi e r 1 L e n g t h 4. 0 0 f t Ab o v e O p e n i n g S h e a r 5 0 6 l b s 1 6 9 p l f H o l d o w n D e m a n d 3 , 3 9 4 lbs 5 0 4 l b s Pi e r 2 L e n g t h 4. 0 0 f t Be l o w O p e n i n g S h e a r 6 1 9 l b s 1 5 5 p l f ST H D 1 4 - C o r n e r Op e n i n g H e i g h t 3. 0 0 f t T & C 1 , 1 2 5 l b s Op e n i n g W i d t h 3. 0 0 f t St r a p A b o v e O p e n i n g 2 5 3 l b s Co m p r e s s i o n D e m a n d 3 , 9 8 3 l b s 1 , 1 2 5 l b s He i g h t B e l o w O p e n i n g 4. 0 0 f t St r a p B e l o w O p e n i n g 2 3 2 l b s 2x 6 Se i s m i c F o r c e 1, 2 3 8 l b s To t a l D L 2 , 0 9 0 l b s Wi n d F o r c e 4, 3 8 1 l b s Ab o v e W i n d o w S t r a p D e m a n d 8 9 6 l b s 2 5 3 l b s Wa l l D L 15 p s f CS 1 6 DL T r i p W i d t h 2. 0 0 f t Pi e r 1 S h e a r 2 , 1 9 0 l b s 5 4 8 p l f DL 20 p s f Pi e r 2 S h e a r 2 , 1 9 0 l b s 5 4 8 p l f B e l o w W i n d o w S t r a p D e m a nd 8 2 1 l b s 2 3 2 l b s Ab o v e O p e n i n g S h e a r 1 , 7 9 2 l b s 5 9 7 p l f CS 1 6 Be l o w O p e n i n g S h e a r 2 , 1 9 0 l b s 5 4 8 p l f As p e c t R a t i o . 8 : 1 T & C 3 , 9 8 3 l b s As p e c t R a t i o F a c t o r 1 S t r a p A b o v e O p e n i n g 8 9 6 l b s St r a p B e l o w O p e n i n g 8 2 1 l b s To t a l D L 2 , 0 9 0 l b s 5,155 lbs In p u t Se i s m i c O u t p u t OK 3,815 lbs OK 4. 0 0 f t 3. 0 0 f t 4. 0 0 f t OK Wi n d O u t p u t 1,975 lbs OK 1,975 lbs OK Op e n i n g H e i g h t 3 f t Pi e r 1 L e n g t h Op e n i n g W i d t h Pi e r 2 L e n g t h Sh e a r w a l l D a t a W i n d S e i s m i c Wa l l S h e a t h i n g D e m a n d 4 1 6 p l f 1 1 8 p l f Wa l l L e n g t h 1 1 . 0 0 f t P i e r 1 S h e a r 4 3 1 l b s 1 0 8 p l f 7/ 1 6 S h e a t h i n g w / 8 d @ 3 " 630 plf 4 5 0 p l f Wa l l H e i g h t 10 . 0 0 f t Pi e r 2 S h e a r 4 3 1 l b s 1 0 8 p l f Pi e r 1 L e n g t h 4. 0 0 f t Ab o v e O p e n i n g S h e a r 3 5 3 l b s 1 1 8 p l f H o l d o w n D e m a n d 2 , 1 7 3 lbs 1 5 9 l b s Pi e r 2 L e n g t h 4. 0 0 f t Be l o w O p e n i n g S h e a r 4 3 1 l b s 1 0 8 p l f ST H D 1 4 - C o r n e r Op e n i n g H e i g h t 3. 0 0 f t T & C 7 8 4 l b s Op e n i n g W i d t h 3. 0 0 f t St r a p A b o v e O p e n i n g 1 7 6 l b s Co m p r e s s i o n D e m a n d 2 , 7 7 6 l b s 7 8 4 l b s He i g h t B e l o w O p e n i n g 4. 0 0 f t St r a p B e l o w O p e n i n g 1 6 2 l b s 2x 6 Se i s m i c F o r c e 86 3 l b s To t a l D L 2 , 0 9 0 l b s Wi n d F o r c e 3, 0 5 3 l b s Ab o v e W i n d o w S t r a p D e m a n d 6 2 5 l b s 1 7 6 l b s Wa l l D L 15 p s f CS 1 6 DL T r i p W i d t h 2. 0 0 f t Pi e r 1 S h e a r 1 , 5 2 7 l b s 3 8 2 p l f DL 20 p s f Pi e r 2 S h e a r 1 , 5 2 7 l b s 3 8 2 p l f B e l o w W i n d o w S t r a p D e m a nd 5 7 2 l b s 1 6 2 l b s Ab o v e O p e n i n g S h e a r 1 , 2 4 9 l b s 4 1 6 p l f CS 1 6 Be l o w O p e n i n g S h e a r 1 , 5 2 7 l b s 3 8 2 p l f As p e c t R a t i o . 8 : 1 T & C 2 , 7 7 6 l b s As p e c t R a t i o F a c t o r 1 S t r a p A b o v e O p e n i n g 6 2 5 l b s St r a p B e l o w O p e n i n g 5 7 2 l b s To t a l D L 2 , 0 9 0 l b s 5,155 lbs In p u t Se i s m i c O u t p u t OK 3,815 lbs OK 4. 0 0 f t 3. 0 0 f t 4. 0 0 f t OK Wi n d O u t p u t 1,975 lbs OK 1,975 lbs OK Op e n i n g H e i g h t 3 f t Pi e r 1 L e n g t h Op e n i n g W i d t h Pi e r 2 L e n g t h Sh e a r w a l l D a t a W i n d S e i s m i c Wa l l S h e a t h i n g D e m a n d 4 6 5 p l f 1 3 1 p l f Wa l l L e n g t h 1 6 . 0 0 f t P i e r 1 S h e a r 2 3 6 l b s 3 9 p l f 7/ 1 6 S h e a t h i n g w / 8 d @ 4 " 490 plf 3 5 0 p l f Wa l l H e i g h t 10 . 0 0 f t Pi e r 2 S h e a r 1 8 4 l b s 4 6 p l f Pi e r 1 L e n g t h 6. 0 0 f t Ab o v e O p e n i n g S h e a r 1 3 1 l b s 1 3 1 p l f H o l d o w n D e m a n d l b s lbs Pi e r 2 L e n g t h 4. 0 0 f t Be l o w O p e n i n g S h e a r 1 3 1 l b s 1 3 1 p l f No t R e q u i r e d Op e n i n g H e i g h t 8. 0 0 f t T & C 2 6 3 l b s Op e n i n g W i d t h 6. 0 0 f t St r a p A b o v e O p e n i n g 3 9 4 l b s Co m p r e s s i o n D e m a n d 9 2 9 l b s 2 6 3 l b s He i g h t B e l o w O p e n i n g 1. 0 0 f t St r a p B e l o w O p e n i n g 3 9 4 l b s 2x 6 Se i s m i c F o r c e 42 0 l b s To t a l D L 6 , 5 6 0 l b s Wi n d F o r c e 1, 4 8 7 l b s Ab o v e W i n d o w S t r a p D e m a n d 1 , 3 9 4 l b s 3 9 4 l b s Wa l l D L 15 p s f CS 1 6 DL T r i p W i d t h 13 . 0 0 f t Pi e r 1 S h e a r 8 3 6 l b s 1 3 9 p l f DL 20 p s f Pi e r 2 S h e a r 6 5 0 l b s 1 6 3 p l f B e l o w W i n d o w S t r a p D e m a n d 1,394 lbs 3 9 4 l b s Ab o v e O p e n i n g S h e a r 4 6 5 l b s 4 6 5 p l f CS 1 6 Be l o w O p e n i n g S h e a r 4 6 5 l b s 4 6 5 p l f As p e c t R a t i o 2 . 0 : 1 T & C 9 2 9 l b s As p e c t R a t i o F a c t o r 1 S t r a p A b o v e O p e n i n g 1 , 3 9 4 l b s St r a p B e l o w O p e n i n g 1 , 3 9 4 l b s To t a l D L 6 , 5 6 0 l b s 5,155 lbs In p u t Se i s m i c O u t p u t OK lbs OK 6. 0 0 f t 6. 0 0 f t 4. 0 0 f t OK Wi n d O u t p u t 1,975 lbs OK 1,975 lbs OK Op e n i n g H e i g h t 8 f t Pi e r 1 L e n g t h Op e n i n g W i d t h Pi e r 2 L e n g t h Sh e a r w a l l D a t a W i n d S e i s m i c Wa l l S h e a t h i n g D e m a n d 4 6 5 p l f 1 3 1 p l f Wa l l L e n g t h 1 6 . 0 0 f t P i e r 1 S h e a r 2 3 6 l b s 3 9 p l f 7/ 1 6 S h e a t h i n g w / 8 d @ 4 " 490 plf 3 5 0 p l f Wa l l H e i g h t 10 . 0 0 f t Pi e r 2 S h e a r 1 8 4 l b s 4 6 p l f Pi e r 1 L e n g t h 6. 0 0 f t Ab o v e O p e n i n g S h e a r 1 3 1 l b s 1 3 1 p l f H o l d o w n D e m a n d l b s lbs Pi e r 2 L e n g t h 4. 0 0 f t Be l o w O p e n i n g S h e a r 1 3 1 l b s 1 3 1 p l f No t R e q u i r e d Op e n i n g H e i g h t 8. 0 0 f t T & C 2 6 3 l b s Op e n i n g W i d t h 6. 0 0 f t St r a p A b o v e O p e n i n g 3 9 4 l b s Co m p r e s s i o n D e m a n d 9 2 9 l b s 2 6 3 l b s He i g h t B e l o w O p e n i n g 1. 0 0 f t St r a p B e l o w O p e n i n g 3 9 4 l b s 2x 6 Se i s m i c F o r c e 42 0 l b s To t a l D L 6 , 5 6 0 l b s Wi n d F o r c e 1, 4 8 7 l b s Ab o v e W i n d o w S t r a p D e m a n d 1 , 3 9 4 l b s 3 9 4 l b s Wa l l D L 15 p s f CS 1 6 DL T r i p W i d t h 13 . 0 0 f t Pi e r 1 S h e a r 8 3 6 l b s 1 3 9 p l f DL 20 p s f Pi e r 2 S h e a r 6 5 0 l b s 1 6 3 p l f B e l o w W i n d o w S t r a p D e m a n d 1,394 lbs 3 9 4 l b s Ab o v e O p e n i n g S h e a r 4 6 5 l b s 4 6 5 p l f CS 1 6 Be l o w O p e n i n g S h e a r 4 6 5 l b s 4 6 5 p l f As p e c t R a t i o 2 . 0 : 1 T & C 9 2 9 l b s As p e c t R a t i o F a c t o r 1 S t r a p A b o v e O p e n i n g 1 , 3 9 4 l b s St r a p B e l o w O p e n i n g 1 , 3 9 4 l b s To t a l D L 6 , 5 6 0 l b s 5,155 lbs In p u t Se i s m i c O u t p u t OK lbs OK 6. 0 0 f t 6. 0 0 f t 4. 0 0 f t OK Wi n d O u t p u t 1,975 lbs OK 1,975 lbs OK Op e n i n g H e i g h t 8 f t Pi e r 1 L e n g t h Op e n i n g W i d t h Pi e r 2 L e n g t h