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r2o lq-°vas . . tigo stk./ crttArA st GREEN MOUNTAIN 4W structural engineering STRUCTURAL CALCULATIONS for Aria Plan Willow Brook, Lot 10 Tigard, Oregon Contractor: Pacific Lifestyle Homes (360) 573-8081 tygo PRop ; 456 I 6 - sp OREG0444.... 140 44;6r: 17 ik 0+ it *.ei, ckS T, ANDS Expires: December 31,2019 Project Number: 17283 May 23, 2019 Index Structural Information Lateral Analysis L-1 thru L-12 Framing Analysis F-1 thru F-1 1 • _ Ph - greenmauntainse corn-info©greenmountamse corn-4857 NW Lake Rd.Suite 260,Camas,WA 98607 GREEN MOUNThIIN y ' structural engineering STRUCTURAL DESIGN INFORMATION GOVERNING CODE: 2015 International Residential Code(IRC) 2015 International Building Code(IBC) This engineering pertains to the design of the Lateral Force Resisting System and a review of the home designer's framing and foundation plans. The home designer is responsible for making any necessary changes as required by these calculations to their framing and foundation plans. 1. Dead Load: A. Roof 15 psf B. Floor 10 psf C. Exterior walls 10 psf D. Exterior walls with veneer 50 psf E. Interior walls with gypboard each side 5 psf 2. Floor live load: 40 psf 3. Snow load: A. Uniformly distributed snow load on roof 25 psf 4. Wind load—based on ASCE 7-10 CH 27 MWFRS Directional Procedure: A. 3 Second Gust Wind Speed V=140 mph B. Exposure .B C. Importance factor I=1.0 D. Topographical Factor Kzt=1.0 E. Wind Directional Factor Kd=0.85 F. Structure classified as enclosed 5. Seismic load—based on ASCE 7-10 Section 12.14: A. Mapped Spectral Acceleration for short periods Ss=1.0 B. Mapped Spectral Acceleration for 1 second period..................S1=0.34 C. Soil Site Class D D. Ductility coefficient ....R=6.5 E. Seismic Design Category D 6. Foundation Soil Properties: A. Undisturbed sandy silt per IBC 2015 Table 1806.2 Soil Class#5 B. Maximum vertical bearing pressure 1500 psf 7. Retaining wall lateral loads: A. Walls free to displace laterally at top 40 pcf B. Walls restrained against lateral displacement at top 45 pcf 8. Concrete: A. 28 day design strength F'c 3000 psi B. Reinforcing bars ASTM A615,Grade 60 GREEN M O U N T I1 I N PROJECT: PIM-Aria structural engineering DATE: 7/6/2017 BY AMA JOB NO: 172$3 SHEET: L-1 LATERAL .� SEISMIC DESIGN BASED ON ASCE-7-10 12.14 Simplified Alternative Structural Design Criteria for Simple Bearing Wall Systems SEISMIC BASE SHEAR 1'2 SD5 (Eq.12.14-11 with F=12) V:_ •W R I SS mapped spectral acceleration for SS:= 1.00 short periods(Sec.11.4.1) from USGS web site S1 mapped spectral acceleration for S1 := 0.34 1 second period(Sec.11.4.1) Fa Site coefficient(Table 11.4-1) Fa 1'1 Based on Soil Fv Site coefficient(Table 11.4-2) F�:= 1.8 Site Class D SMs:= Fa•Ss SMs=1.1 (Eq.11.4-1) SM1 := Fv-S1 SM1 = 0.61 (Eq.11.4-2) 11.4.4 Design spectrum response acceleration parameters 2 Sos 3•SMs Sos = 0.73 > 0.50g SEISMIC CATEGORY 2 D PER TABLE 11.6-1 SD1•= 3'SM1 Sol = 0.41 1.2 SDs R:= 65 WOOD SHEAR PANELS V:= •W R 1.2.0.73 V:= W V:= 0.135•W 6.5 12.4 Seismic Load Combinations E:= 1.3•V (Eq.12.4-3 with redundancy factor=1.3 per 12.3.4.2) WSD:= 0.7.E 0.7-1.3.0.135•W 0.123-W WOOD SHEAR PANELS GPROJECT: PLHVArla 1 411, structural engineering DATE: _--7/6/2017 2017 BY AMA JOB NO: 17283 SHEET: L-2 LATERAL , �_., s, r _ �.•�. � SIMPLIFIED WIND AND SEISMIC COMPARISON WIND It 11 / Ill psf psf Win base Ht Shear , < Length L:= 60•ft Height Ht:= 18•ft WIND:= L•Ht•(11.psf+ 7•psf) WIND =19440 lb SEISMIC Fr ÷ Wroof WvaII Sieism IC base u h e a r Aroof := 60•ft-40•ft Wr:= Aroof•15•psf+ 2-(4.5.ft.60•ft)•10•psf Wr=41400 lb Wwalis 2.9 ft-60•ft SEISMIC:_ (Aroof"15•psf+ Wwalls'10'psf)•0.123 SEISMIC=5756.4 lb WIND GOVERNS DESIGN GREEN M O U N T h I N PROJECT: PIM- Aria 111, AMA Structural engineering DATE: 7/6/2017 _- „„- BY w r> . .. ma _. . » r, L ____ WIND DESIGN IS BASED ON ASCE 7-10 CH.27 MWFRS DIRECTIONAL PROCEDURE VELOCITY PRESSURE qz:= .00256•KZ•Krt. Kd•V2•I EXPOSURE B WIND SPEED(3 second gust) Vas := 140 mph IMPORTANCE FACTOR I := 1.0 TOPOGRAPHICAL FACTOR Krt := 1.0 WIND DIRECTIONAL FACTOR Kd:= 0.85 EXPOSURE COEFFICIENT 0'-15' KZ:= 0.57 qz:= .00256 KZ•KZt•Kd-V3,2-I qZ= 24.31 (vanes/height) 15'-20' KZ:= 0.62 qZ:= .00256•KZ•KZ.,•Kd V3,2-1 qZ= 26.44 20'-25' KZ:= 0.66 qz:= .00256•KZ-Krt. Kd V3,2•I q2=28.15 25'-30' KZ:= 0.70 qZ:= .00256 KZ KZt-Kd V3,2-I qZ= 29.85 WIND PRESSURE P:= qZ.G-CP G:= 0.85 Gust factor CP pressure coefficient For Working Stress Design Multiply WIND PRESSURE by 0.6 per IBC 1605.3.1 AT WALLS 0'-15' WINDWARD PW:= 0.6-24.31.psf-0.85 0.8 PW= 9.92 psf LEEWARD PL:= 0.6 24.31.psf 0.85.0.5 PL=6.2 psf 15'-20' WINDWARD PH,:= 0.6.26.44•psf 0.85 0.8 PW=10.79 psf LEEWARD PL:= 0.6 26.44 psf-0.85.0.5 PL=6.74 psf AT ROOF 15'-20' WINDWARD PW:= 0.6.26.44•psf 0.85 0.3 P„,=4.05 psf LEEWARD PL:= 0.6 26.44 psf 0.85.0.6 PL= 8.09 psf 20'-25' WINDWARD PW:= 0.6.28.15 psf 0.85.0.3 PW=4.31 psf LEEWARD PL:= 0.6 28.15-psf 0.85 0.6 PL=8.61 psf GREEN MOUNTFIIN PROJECT: PLH-Alla structural engineering DATE 7/6/2017 BYV mA JOB NO: 17283 SHEET: L-4 LATERAL a. .. T... m.. .,„ . .__.,. _ �__ ua.. WIND DESIGN IS BASED ON ASCE 7-10 CH.27 MWFRS DIRECTIONAL PROCEDURE CP—a.3 4,05 /1/\)': 8,09 psf / / \` psf Assume Cp--a 6 0 := 35 //` <",... \-7 f 9.9 R 6,2 psf / 9 ft psf 1 windward leeward Roof Loads Windward 4.05.psf•12•ft=48.6 plf Leeward 8.09 psf-12-ft= 97.08 plf Wall loads Windward 9.9•psf•4.5•ft=44.55 plf Leeward 6.2•psf•4.5-ft=27.9 plf GREEN M O U N TSI I N PROJECT: PLH- Aria 6 201 structural en �CleeC�11 DATE: 7� 7 BY AMA 9 9 JOB NO: 17283 SHEET: L-5 LATERAL 266 73 WIND ON ROOF 73 Wavg = 169 plf < o Q < CI_ O 150 mum eL GREEN M O O N TIN I N PROJECT: PIH- Aria DATE 7�6�2017 BY AMA structural engineering r , JOB NO: 172$3 SHEET: L-6 LATERAL .___,,, . , ..., WIND ON MAIN LEVEL M= 60(12)2/2=43201b T C M T=C= 4320= 432 lb io 7376 ......... 0 i%,, IFS — OI 0 • I 1 \ LN. 0111.IIIII% L 11 r- ,Io � 4394 4394 II H 11111, — IP --- OPTIONAL X 0 i ____4 1---" :1=, ....,..._.=L ,,..s 6656 S 1=11 ei GREEN M O U N T II I N PROJECT: PLH-Aria engineering en9 9 DATE:--- 7/6/2017 BY AMA JOB NO: 172$3 SHEET: L-7 LATERAL ...�_m. SHEAR WALL DESIGN Pdl Pdl I Wdl w f Y ! �� P P:= wind V:= seismic h 12=HoIdown V Force Based on Basic Load Combinations 0.6D+ 0.6W 0.6•D+ 0.7•E Overturning Moment: Mot := F h L2 Resisting Moment: Mr:= 0,6 (Wdi + Wwall)•(2 + 0.6 Fdi-L Mot— Mr Holdown Force R L II GREEN M O U N T II I N PROJECT: PLH Ara structural engineering DATE: 7/6/2017 BY: AMAy.. JOB NO: 17283 SHEET: L-8 LATERAL ��� ,� Nww .•._:.m_ � m. .._....�.._.. . _r_._.... ..m..r.��. Left Elevation Sh ear Walls- at 3 car option - most conservative Wind Force P:= 4394 lb P=4394 lb Length of wall L:= 12ft+ 4ft+ 7ft•2+ 5ft L=35ft P Shear v:= — v=125.54 plf A L 4•ft Overturning Mot:= P•9'ft• Ma=4519.54 lb•ft Moment 35-ft (4.ft)2 Resisting Mr:= .6.(15.psf-21•ft+ 10-psf•9-ft)• 2 + 400.1b-4•ft Moment Mr= 3544 Ib-ft Mot— Mr Holdown = 243.89 lb Force 4.ft at 2 car option: P=3380 lb L 37 ft v=91plf Right El evation Shear Walls Wind Force P:= 4394 Ib P=43941b Length of wall L:= 22•ft+ 23ft+ 4ft L=49ft P Sh ear v:= — v=89.67 plf A L Overturning 4 Moment Mot P•9•ft49 Mot= 3228.24lb•ft (4.ft)2 Resisting Mr:= .6•(15•psf•21ft+ 10.psf•9-ft)• 2 + 400.1b•4-ft Moment Mr= 3544 lb•ft Mot— Mr Holdown =—78.94 lb Force 4 ft • GREEN M O U N TSI I N PROJECT: PLH Aria 1110 structural engineering DATE: 7/6/2oi7 0 BY: AMA JOB NO: 172$3 SHEET: L-9 LATERAL u.. __... Shear Walls at Front Elevation -2 car option Wind Force P:= 6656 lb P=6656 lb Length of wall L:= 2•ft+ 2ft+ 3.5ft+ 3.5ft L=11 ft P Sh ear v:= — v=605.09 plf E L Overturning 2 Mot:= P•7•ft•— Moment 10 Mot = 9318.4 lb-ft Resisting (2 ft)2 Moment Mr:= .6.(15.psf.3•ft+ 10-psf•8•ft)- 2 + 400-lb-2•ft Mr= 950lb•ft Holdown Mot (Mr) =4184.2 lb HTT5 / STHD14 Force 2 ft Shear Walls at Rear Elevation Wind Force P:= 7376lb P=73761b Length of wall L:= 4-ft+ 8ft+ 4ft L=16ft P Shear v:= — v---461p1f D L Overturning 4 Moment Mot .— P9ft - 16 Mot=16596lb•ft (4.ft)2 Resisting Mr:= .6 (15 psf•3 ft+ 10 psf.9.ft)• 2 + 400 Ib•4 ft Moment Holdown Mot (Mr) = 3587 lb HTT4 Mr= 2248 lb ft Force 4 ft / GREEN MOUNTININ PROJECT: PLH-Aria IOW structural engineering DATE: ]/6/2017_ s BY AMA JOB NO: 17283 SHEET: L-10 LATERAL y....__ _, .w._.. Shear Walls at Front Elevation -12 3 car option Wind Force P:= 6656-lb P=6656 lb Length of wall L:= 2ft•4+ 3.5ft+ 3.5ft L=15ft P D Shear v:= — v=443.73p1f L Overturning 2 Mot:= P•7•ft•— Mot= 6212.27 Ib•ft Moment 15 Resisting (2-ft)2 Moment Mr:= .6 (15.psf-3-ft+ 10.psf-8-ft)- 2 + 400-Ib•2-ft Mr=950Ib•ft Holdown Mo ftMr) =2631.13 lb HTT4 / STHD14 2.Force Shear Walls at Front Elevation - Narrow 3 car option Wind Force P:= 6656.1b P=6656 lb Length of wall L:= 1.33ft+ 2•ft2+ 3.5ft+ 3.5ft L=12.33ft P Sh ear v:= — v=539.82 plf E L Overturning 2 Moment Mot . P 7 ft12.33 Mot=7557.5lb•ft Resisting (2-ft)2 Moment Mr:= .6 (15.psf-3-ft+ 10•psf•8-ft)• 2 + 400.Ib-2•ft Mr= 950 lb-ft Holdown Mo 2 ftMr) = 3303.75 lb HTT4 /STHD14 Force GREEN MOUNTVIIN PROJECT: PLH Aria structural engineering DATE: Jan. 2019 BY: AMA LATERAL ANALYSIS JOB NO: 17283 SHEET: L-1 1 CALCULATE MAXIMUM UPLIFT ON ROOF TRUSSES: V35 := 140-mph Exp.B ASCE 7-10 CH.28 MWFRS ENVELOPE PROCEDURE P:= gh•[(GCPf) - (GCp,)] MEAN ROOF HT=30 ft(max) 0 := 26.6 KZ:= 0.70 KZt:= 1.0 Kd:= 0.85 V:= 140 I:= 1.0 qh:= .00256•KZ•KZt•Kd•V2.l qh = 29.85 psf G•CPf FIG 28.4-1 0 := 20 GCpf :_ -0.69 (Zone 3E) 0 := 30 GCpf := -0.53 (Zone 3E) 0 := 25 GCpf :_ -0.61 GCp•:= 0.18 P:= qh•[(GCpf) - (GC01 P= -23.59 psf USING LOAD COMBINATION 16-15: 0.6D+0.6W MAX NET UPLIFT- USE ROOF DEAD LOAD=12 PSF lb W := 0.6-12-psf- 0.6-23.6-psf W= -6.96 2 uplift ft MAX UPLIFT AT END OF GIRDER TRUSSES: a. Girder A17 TRIBUTARY AREA At:= 5•ft•23ft At= 115ft2 UPLIFT U := At•W U = -800.4 lb (2)Simpson H2.5a's b. GirderY03 TRIBUTARY AREA At:= 10•ft 11•ft At= 110ft2 UPLIFT U := At•W U = -765.6 lb (2)Simpson H2.5a's c.Typ Truss: TRIBUTARY AREA At:= 2•ft-21•ft At= 42ft2 UPLIFT U := At•W U = -292.32 lb (1)Simpson H25a's or H1 II GREEN MOUNTiIIN PROJECT: PLH-Aria IOW7/6/2017AMA structural engineering DATE m� m...a� ..,.. •..., BY ... JOB NO: 172$3 SHEET: L-12 LATERAL .... �� . Determine Diaphragm Shear&Deflection i First Floor: I Seismic Force FPx <_ 0.4•Sds-I-Wp (ASCE 7-10 12.10-3) SDS:_ .73 I:= 1.0 WSD FPx:= 0.7-0.4-SDS•I•WPx FPx:= 0.2 wPx wDL:= 15•psf W-w DL�0.2 w = 60 If W 20 ft w seismic := seismic p L:= 60•ft w--seismic force --- ---- 7/8" PLY �./ yf` 'V 10 D NAILS 6"a'EDGES ���— 12"aFIELD W L J Wseismic•2 v:= D , �----- W v=90 plf ir , i SHEAR: Per SDPWS 2015 Table 4.2C 7/8"UNBLOCKED DIAPHRAGM vaiiowed := 215.plf > v= 90 plf QED : BLOCKING NOT REQUIRED DEFLECTION: Per SDPWS: 42-1: v= 90plf A:= (1.5•in)•(5.5-in) Area of chord cross section L= 60ft E:= 1400000•psi Modulus of elasticity of chords lb W= 20ft GA:= 8.5.- (Table 4.2C) in EOcx:= 2•[0.03125.(16 in + 32•in + 32-in+ 16-in)] EAcx=6in Breyer CH.9.8 5•v-L3 (in0.25•v•L (EAcx)ft A :_ • — + - + A= 0.361in �8•E•A•W) eft) 1000.GA 2-W vie GREEN M O O N Tn I N PROJECT: PLH- Aria 7/6/2017 AMA structural engineering DATE: BY 17283 2g3 JOB NO: SHEET: F-� FRAMING _a �_ _ _,N ROOF LOADS PLAN A (C & D ARE SIM) Wd = 15psf WI = 25psf \/ 0 1 OP '51`, ', . �/ �/ 00/ 1 �p0 'll w TRIANGLE SHAPE . 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Roof pitch=7/12 w Overhang= 12" DO NOT CUT, DRILL, NOTCH OR MODIFY TRUSS MEMBERS WITHOUT PRIOR APPROVAL FROM PROBUILD TRUSS m a GREEN M 4 U N Th I N PROJECT: PLH-Aria 201 structural engineering DATE: 10111, 7/6/ BY: AM`�..., .. JOB NO: 17283 SHEET: F-3 FRAMING TRACK ROOF LOADS OPTIONAL O 1 —.�.� I O 1 :J IF gbYM 0b I 00 Its o 1 o E L____.1 KaUIII IP OPTIONAL J7 x 0 COQ <51 F _____4 ® .— ® roT-' A GREEN MOUNTIIIN PROJECT: PLH- Aria M�$ p 7/6/2017 AMA structural engineering DATE: ��,ti JOB NO: 17283 SHEET: F-4 FRAMING 0 240p1f ROOF 4x12 VV V VAL �/ 12' /� 1490 1490 1A240p1f ROOF 6x12 X 16' ,X, 2025 2025 200pIf ROOF 6x12 16.5' 1758 1758 3400 1700 @2' @4' 9 4X10 L 5' 2397 2737 1320 @4' 4 11111111111 440pif ROOF 4x12 AA 8' 1133 2013 PI Project. page --- Green Mountain Location: 1 v3 .w Green Mountain SE Multi-Loaded Multi-Span Beam of [2015 International Building Code(2015 NDS)] 3.5INx 11.25INx 12.OFT #2-Douglas-Fir-Larch(North)-Dry Use StruCalc Version 10.0 1.4 10/16/2017 1:00:30 PM Section Adequate By:48.0% F-5 Controlling Factor:Moment DEFLECTIONS Center LOADING DIAGRAM Live Load 0.14 IN L/1026 Dead Load 0.03 in Total Load 0.17 IN L/826 Live Load Deflection Criteria: L/240 Total Load Deflection Criteria:L/180 REACTIONS A Live Load 1200 lb 1200 lb Dead Load 290 lb 290 lb Total Load 1490 lb 1490 lb Bearing Length 0.68 in 0.68 in w BEAM DATA Center Span Length 12 ft Unbraced Length-Top 0 ft fee Unbraced Length-Bottom 12 ft Live Load Duration Factor 1.15 Notch Depth 0.00 UNIFORM LOADS Center MATERIAL PROPERTIES Uniform Live Load 200 plf #2-Douglas-Fir-Larch(North) Uniform Dead Load 40 plf Base Values Adjusted Beam Self Weight 8 plf Bending Stress: Fb= 850 psi Fb'= 1075 psi Total Uniform Load 248 plf Cd=1.15 CF=1.10 Shear Stress: Fv= 180 psi Fv'= 207 psi Cd=1.15 Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi Comp. L to Grain: Fc-L= 625 psi Fc-1'= 625 psi Controlling Moment: 4471 ft-lb 6.0 Ft from left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Controlling Shear: 1490 lb At left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Comparisons with required sections: Req'd Provided Section Modulus: 49.89 in3 73.83 in3 Area(Shear): 10.8 in2 39.38 in2 Moment of Inertia(deflection): 97.18 in4 415.28 in4 Moment: 4471 ft-lb 6615 ft-lb Shear: 1490 lb 5434 lb NOTES Project = page '_ Green Mountain Location: 1A �. ;",�" Green Mountain SE Multi-Loaded Multi-Span Beam of [2015 International Building Code(2015 NDS)] 5.5INx11.25INx16.0FT #2-Douglas-Fir-Larch(North)-Dry Use StruCalc Version 10.0.1.4 10/16/2017 1:01.00 PM Section Adequate By:20.1% F-6 Controlling Factor Moment DEFLECTIONS Center LOADING DIAGRAM Live Load 0.35 IN L/552 Dead Load 0.09 in Total Load 0.44 IN L/436 Live Load Deflection Criteria:L/240 Total Load Deflection Criteria:L/180 REACTIONS A B Live Load 1600 lb 1600 lb Dead Load 425 lb 425 lb Total Load 2025 lb 2025 lb Bearing Length 0.59 in 0.59 in w BEAM DATA Center Span Length 16 ft Unbraced Length-Top 0 ft 16 ft Unbraced Length-Bottom 16 ft Live Load Duration Factor 1.15 Notch Depth 0.00 UNIFORM LOADS Center MATERIAL PROPERTIES Uniform Live Load 200 plf #2-Douglas-Fir-Larch(North) Uniform Dead Load 40 plf Base Values Adjusted Beam Self Weight 13 plf Bending Stress: Fb= 875 psi Fb'= 1006 psi Total Uniform Load 253 plf Cd=1.15 CF=1.00 Shear Stress: Fv= 170 psi Fv'= 196 psi Cd=1.15 Modulus of Elasticity: E= 1300 ksi E'= 1300 ksi Comp.L to Grain: Fc-L= 625 psi Fc-L'= 625 psi Controlling Moment: 8101 ft-lb 8.0 Ft from left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Controlling Shear: 2025 lb At left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Comparisons with required sections: Req'd Provided Section Modulus: 96.6 in3 116.02 in3 Area(Shear): 15.54 in2 61.88 in2 Moment of Inertia(deflection): 283.52 in4 652.59 in4 Moment: 8101 ft-lb 9728 ft-lb Shear: 2025 lb 8064 lb NOTES Project: W �° Page Green Mountain Location:2 � ��-- Green Mountain SE Multi-Loaded Multi-Span Beam or [2015 International Building Code(2015 NDS)] 5.5INx11.25INx16.5FT #2-Douglas-Fir-Larch(North)-Dry Use StruCalc Version 10.0.1.4 7/6/2017 11:59:22 AM Section Adequate By:34.1% F-7 Controlling Factor Moment DEFLECTIONS Center LOADING DIAGRAM Live Load 0.25 IN L/806 Dead Load 0.17 in Total Load 0.42 IN L/473 Live Load Deflection Criteria: L/240 Total Load Deflection Criteria:L/180 REACTIONS A B Live Load 1031 lb 1031 lb Dead Load 727 lb 727 lb Total Load 1758 lb 1758 lb Bearing Length 0.51 in 0.51 in w BEAM DATA Center Span Length 16.5 ft Unbraced Length-Top 0 ft 16.5 ft Unbraced Length-Bottom 16.5 ft Live Load Duration Factor 1.15 Notch Depth 0.00 UNIFORM LOADS Center MATERIAL PROPERTIES Uniform Live Load 125 plf #2-Douglas-Fir-Larch(North) Uniform Dead Load 75 plf Base Values Adjusted Beam Self Weight 13 plf Bending Stress: Fb= 875 psi Fb'= 1006 psi Total Uniform Load 213 plf Cd=1.15 CF=1.00 Shear Stress: Fv= 170 psi Fv'= 196 psi Cd=1.15 Modulus of Elasticity: E= 1300 ksi E'= 1300 ksi Comp. L to Grain: Fc- = 625 psi Fc-1'= 625 psi Controlling Moment: 7254 ft-lb 8.25 Ft from left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Controlling Shear: 1758 lb At left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Comparisons with required sections: Rea'd Provided Section Modulus: 86.5 in3 116.02 in3 Area(Shear): 13.49 in2 61.88 in2 Moment of Inertia(deflection) 248.53 in4 652.59 in4 Moment: 7254 ft-lb 9728 ft-lb Shear: 1758 lb 8064 lb NOTES Project "" page Green Mountain / Location:3 Green Mountain SE Multi-Loaded Multi-Span Beam of [2015 International Building Code(2015 NDS)] 3.5 IN x 9.25 IN x 5.0 FT #2-Douglas-Fir-Larch(North)-Dry Use StruCalc Version 10.0.1.4 7/6/2017 12:00.28 PM Section Adequate By:2.1% F-8 Controlling Factor:Moment DEFLECTIONS Center LOADING DIAGRAM Live Load 0.03 IN L/2004 Dead Load 0.02 in Total Load 0.05 IN L/1173 Live Load Deflection Criteria: L/240 Total Load Deflection Criteria:L/180 REACTIONS A B Live Load 1400 lb 1600 lb Dead Load 997 lb 1137 lb Total Load 2397 lb 2737 lb Bearing Length 1.10 in 1.25 in 2 BEAM DATA Center Span Length 5 ft ,...__�--._a_.0,__ 2 - .:. ,, ..r,-�a�,.4,; Unbraced Length-Top 0 ft 5e Unbraced Length-Bottom 5 ft Live Load Duration Factor 1.15 Notch Depth 0.00 UNIFORM LOADS Center MATERIAL PROPERTIES Uniform Live Load 0 plf #2-Douglas-Fir-Larch(North) Uniform Dead Load 0 plf Base Values Adiusted Beam Self Weight 7 plf Bending Stress: Fb= 850 psi Fb'= 1173 psi Total Uniform Load 7 plf Cd=1.15 CF=1.20 POINT LOADS-CENTER SPAN Shear Stress: Fv= 180 psi Fv'= 207 psi Load Number One Two Cd=1.15 Live Load 2000 lb 1000 lb Modulus of Elasticity: E= 1600 ksi E= 1600 ksi Dead Load 1400 lb 700 lb Comp.1 to Grain: Fc-- = 625 psi Fc--- = 625 psi Location 2 ft 4 ft Controlling Moment: 4781 ft-lb 2.0 Ft from left support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Controlling Shear: -2737 lb At right support of span 2(Center Span) Created by combining all dead loads and live loads on span(s)2 Comparisons with required sections: Req'd Provided Section Modulus: 48.91 in3 49.91 in3 Area(Shear): 19.83 in2 32.38 in2 Moment of Inertia(deflection): 35.42 in4 230.84 in4 Moment: 4781 ft-lb 4879 ft-lb Shear: -2737 lb 4468 lb NOTES Project: V tif, A.Green Mountain page Location:4 +r °, Green Mountain SE Multi-Loaded Multi-Span Beam of [2015 International Building Code(2015 NDS)] 3.5 IN x 11.25 IN x 8.0 FT #2-Douglas-Fir-Larch(North)-Dry Use StruCalc Version 10.0.1.4 7/6/2017 11.53:29 AM Section Adequate By:48.1% F-9 Controlling Factor:Moment DEFLECTIONS Center LOADING DIAGRAM Live Load 0.05 IN L/1975 Dead Load 0.02 in Total Load 0.07 IN L/1404 Live Load Deflection Criteria: L/240 Total Load Deflection Criteria:L/180 REACTIONS A B Live Load 800 lb 1400 lb Dead Load 333 lb 613 lb Total Load 1133 lb 2013 lb Bearing Length 0.52 in 0.92 in TRI BEAM DATA Center Span Length 8 ft Unbraced Length-Top 0 ft aft Unbraced Length-Bottom 8 ft Live Load Duration Factor 1.15 Notch Depth 0.00 UNIFORM LOADS Center MATERIAL PROPERTIES Uniform Live Load 0 plf #2-Douglas-Fir-Larch(North) Uniform Dead Load 0 plf Base Values Adjusted Beam Self Weight 8 plf Bending Stress: Fb= 850 psi Fb'= 1075 psi Total Uniform Load 8 plf Cd=1.15 CF=1.10 POINT LOADS-CENTER SPAN Shear Stress: Fv= 180 psi Fv'= 207 psi Cd=1.15 Load Number One Live Load 1000 lb Modulus of Elasticity: E= 1600 ksi E'= 1600 ksi Dead Load 320 lb Comp.1 to Grain: Fc-1= 625 psi Fc--- = 625 psi Location 4 ft Controlling Moment: 4467 ft-lb TRAPEZOIDAL LOADS-CENTER SPAR 4.0 Ft from left support of span 2(Center Span) Load Number One Created by combining all dead loads and live loads on span(s)2 Left Live Load 300 plf Controlling Shear: -2013 lb Left Dead Load 140 plf At right support of span 2(Center Span) Right Live Load 300 plf Created by combining all dead loads and live loads on span(s)2 Right Dead Load 140 plf Load Start 4 ft Comparisons with required sections: Read Provided Load End 8 ft Section Modulus: 49.85 in3 73.83 in3 Load Length 4 ft Area(Shear): 14.59 in2 39.38 in2 Moment of Inertia(deflection): 53.24 in4 415.28 in4 Moment. 4467 ft-lb 6615 ft-lb Shear: -2013 lb 5434 lb NOTES GREEN MOUNTAIN PROJECT: PLH- Aria DATE: 7/6/2017 BY: RAMA lie structural engineering JOB NO: 17283 SHEET: F-10 FRAMING FOUNDATION LOADS gP) it' _ - - 16, OPT.', 1 O 0 0 O O 4I O O 0 • O O 0 • O O 0 I. O O 0 • O 0 0 O 0 0 • O 0 0 • O 0 0 I O 0 0 AR FP 0 0 Imo- 4I ' N • 0 24x24x12 0 OPT. @3CAR/ 0 SHOP 3CAR 0 0 'S' 11 b(0O U 0 ri GREEN MOUNThIN PROJECT: a PLH-Ari structural engineering DATE: 7/6/2017 - BY AMA JOB NO: 17283 SHEET: F-1 FRAMING Foundation Design Soil Bearing Pressure SBP:= 1500 psf (assummed) continuous foundation footing 12 inches wide with a 6 inch stem that is 18 inches tall. total engaged area Allowed Load A:= (16-in + 6.in + 16-in)-12-in A= 3.2ft2 I Allowed Load SBP•A= 4750 lb NIMIN in. Individual Footings: Size Area Capacity 18"diameter A:= 9 in•9-in 3.14 Pall 1500•psf-A Pall = 2649.4 lb 24"x24" A:= 24-in•24-in Pall 1500•psf•A Pall = 6000 lb 28"x28" A:= 28 in•28•in Pall 1500-psf-A Pall = 8166.7 lb 36"x36" A:= 36•in•36•in Pall 1500•psf-A Pall = 13500 lb 48"x48" A:= 48-in•48in Pall := 1500-psf-A Pall = 240001b Continuous Footings: 12 inch wide: Capacity 1500 psfX 12 inches=1500 plf If GREEN MOUNTAIN PROJECT: PLH- Aria %10 • structural engineering7/6/2017 DATE: BY: A1VIA JOB NO: 17283 SHEET: F-1 I A FRAMING Ja,157. ;,3eLAre(NCCz..._G PoGt�LT,.._iAr cQ�rca.Er s�LL I r 3 P & NOTCHED S[LL PL,-rm ; ! zip 1,t51- 4 _...... , i._ r. 5. .r. ._.. . lacy 1 (V Z Alt r ! A� A.U.ovLfa 3 LE ` I t c, P q I € € F E 51e4i1 ,..�. 5..�..„ ...i ..,,«» a... ; ,. 5 .M.-..5 ,„...... �.�....,3 ..�'&,w...«�, 3:.,...:�. t SEcrio, _ Qe�. f.�C._ i ;_.... m,._,_ • A) z x r =. " i 4 ' _.._. 1��A cz1�^ A-. 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