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Specifications (33) c\(\ P r F 0 c* GREEN MOUNThIN DEC. 1 3 2017 structural engineering CM'OF TIGARD 1111ILDING DIVISION Lateral Analysis For Riverside Homes — Plan 2885 Elevation A Progress Landing Lot 4 I I 12074 SW Redberry Court Tigard, OR Dec 6, 2017 to PR or <4?` G 49 78PE 11 2 cc r- OREGON , 0 'IA,. 0,9 12 NA WW1- Expires: 12• 1• Job No:17485 • • • LIMITATIONS " • ENGINEER WAS RETAINED IN A LIMITED CAPACITY FOR THIS PROJECT. DESIGN IS BASED UPON INFORMATION PROVIDED BY THE CLIENT, WHO IS SOLELY RESPONSIBLE FOR ACCURACY OF SAME. NO RESPONSIBILITY AND/OR LIABILITY IS ASSUMED BY,OR IS TO BE ASSIGNED TO THE ENGINEER FOR ITEMS BEYOND THAT SHOWN ON THESE SHEETS. Table of Contents Design Criteria Lateral Analysis L-1 —L- 15 rt greenmountainse.com-infoggreenmountainse.com-4857 NW Lake Rd.,Suite 260,Camas,WA 98607 GREEN MOUNTIIIN structural engineering STRUCTURAL DESIGN CRITERIA Governing Code: 2012 International Residential Code (IRC) 2012 International Building Code (IBC) Dead Load: A. Roof 15 psf B. Floor ...10 psf C. Exterior walls .10 psf D. Interior walls with gypboard each side 5 psf Snow Load: A. Uniformly distributed snow load ...25 psf Floor Live Load: 40 psf Wind Load:based on ASCE 7-10 CH27 MWFRS Directional Procedure A. 3 Second Gust Wind Speed V=126 mph B. Importance Factor ..1=1.0 C. Exposure B D. Topographical Factor .Kzt=1.0 E. Wind Directional Factor Kd=0.85 F. Structure classified as enclosed Seismic Load—based on ASCE 7-10 Section 12.14 A. Mapped Spectral Acceleration for short periods.....Ss=1.0 B. Mapped Spectral Acceleration for1 sec. period S1=0.34 C. Ductility Factor ...R=6.5 D. Seismic Design Category D Foundation Soil Properties: A. Undisturbed sandy silt per IBC 20012 Table 1806.2....Soil Class#5 B. Maximum vertical bearing pressure 1500 psf Concrete: A. 28 days design strength F'c 3000 psi B. Reinforcing bars ASTM A615, Grade 60 II GREEN MOUNThIN PROJECT: Riverside - 2885 Mir structural engineering DATE: 12/4/2017 BY: CM JOB NO: 17485 SHEET: L-1 LATERAL SEISMIC DESIGN BASED ON ASCE-7-10 16175 Simplified analysis procedure for seismic design of buildings 1.2•SDs SEISMIC BASE SHEAR V:_ W (EQ.12.14-11 with F=12) SS mapped spectral acceleration for SS:= 1.00 short periods(Se c.11.4.1) from USGS web site SS mapped spectral acceleration for Si:= 0,34 1 second period(Sec.11.4.1) Fa Site coefficient(Table 11.4-1) Fa 1'1 Based on Soil F„ Site coefficient(Table 11.4-2) F�:= 18 Site Class D SMs:= Fa•Ss SMs= 1.1 (Eq.11.4-1) SMI:= F„•Si SMS= 0.61 (Eq.11.4-2) 11.4.43 Design spectrum response acceleration parameters 2 SDS •SMS SDs = 0.73 > 050g SEISMIC 2 CATEGORY SDI:= 3•SM1 SDI= 0.41 > 0.20g D per Table 11.6-1 1.2 SDs WOOD SHEAR PANELS V:= W R:= 65 Table 9.52.2 R 1.2.0.73 V: 6.5 •W V:= 0.135•W 12.4 Seismic Load Combinations E:= 1.3•V (Eq.12.4-3 with redundancy factor=1.3 per 12.342) WSD:= 0.7•E 0.7.1.3.0.135•W 0.123•W WOOD SHEAR PANELS 11 = x GREEN MOUNTRIN PROJECT: Riverside - 2885 Mly r - DATE: 12/4/2017 BY: CM structural engineering JOB NO: 17485 SHEET: L-2 LATERAL SIMPLIFIED WIND AND SEISMIC COMPARISON WIND 11 7.4 ps f psf Wind ease Shear Length L:= 52.ft HeightHt:= 24 ft WIND:= L•Ht•(11•psf+ 7.4•psf) SEISMIC WIND= 22963.2 lb Fr Wroof F2 . — Wfloor Seismic Wwal I base Shear Aroof:= 52•ft•40•ft Aroof= 2080ft2 Afloor:= 43•ft•40•ft • rioor= 1720 ft2 Wwalls 4.52•ft•20•ft Wwalls =4160ft2 SEISMIC:_ (Aroof•15•psf+ Afloor•15•psf+ Wwalls'10•psf)•0.123 SEISMIC= 12127.8 lb WIND GOVERNS DESIGN II GREEN MOUNTPIIN PROJECT: Riverside - 2885 /2017 structural engineering DATE: 12/4/2017 BY: CM LATERAL JOB NO: 17485 SHEET: L-3 WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE VELOCITY PRESSURE qZ:= .00256•KZ•KA•K.d•V2.I (Eq.6-15) EXPOSURE B WIND SPEED(3 second gust) Vas:= 126 mph IMPORTANCE FACTOR I := 1.0 TOPOGRAPHICAL FACTOR KA:= 1,0 WIND DIRECTIONAL FACTOR Kd:= 0.85 (Table 6-4) EXPOSURE COEFFICIENT 0'-15' KZ:= 0.57 qz:= .00256•lc•KA•Kd•V3s2•I qZ= 19.69 (varies/height) 15'-20' KZ:= 0.62 qz:= .00256•KZ•Kc•Kd•V3s2•I qz= 21.42 20'-25' KZ:= 0.66 qz:= .00256•KZ•KA•Kd•V3s2•I qZ= 22.8 25'-3O' K,:= 0.70 qZ:= .00256•KZ•KA•Kd•V3s2•I qZ= 24.18 44 u GREEN M0UNTPIIN PROJECT: Riverside - 2885 iihe . structural engineering DATE: 12/4/2017 BY: CM LATERAL JOB NO: 17485 SHEET: -4 WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE cont. WIND PRESSURE P:= 9Z•G•CP G:= 0.85 Gust factor C, pressure coefficient AT WALLS For Working Stress Design Multiply WIND PRESSURE by 0.6 per IBC 1605.3.1 0-15' WINDWARD Pw:= 12.4•psf•0.85.0.8 PW= 8.43 psf LEEWARD PL:= 12.4-psf•0.85.0.5 PL= 5.27 psf 15'-20' WINDWARD P,„:= 13.49•psf•0.85.0.8 P,,,= 9.17 psf LEEWARD PL:= 13.49•psf•0.85.0.5 PL= 5.73psf 20-25 WINDWARD P„,:= 14.36•psf•0.85.0.8 P,N= 9.76 psf LEEWARD Pi_:= 14.36•psf•0.85.0.5 Pt,= 6.1 psf AT ROOF 0'-15' WINDWARD P,,,,:= 12.4•psf•0.85.0.3 P,y= 3.16 psf LEEWARD Pi_:= 12.4•psf•0.85.0.6 PL= 6.32 psf 151-20' WINDWARD P,,,:= 13.49.psf•0.85.0.3 P,r= 3.44 psf LEEWARD Pi,:= 13.49•psf•0.85.0.6 PL.= 6.88psf 20'-25' WINDWARD P,,,,:= 14.36.psf•0.85.0.3 PN,= 3.66 psf LEEWARD Pi_:= 14.36•psf•0.85.0.6 PL.= 7.32 psf 26-30' WINDWARD PW:= 15.23•psf•0.85.0.3 PW= 3.88 psf LEEWARD Pt.:= 15.23•psf•0.85.0.6 Pi_= 7.77 psf - ' r GREEN MOUNTS IN PROJECT: Riverside - 2885 11110, structural engineering DATE: 12/4/2017 BY CM JOB NO: 17485 SHEET: L-5 LATE RAL WIND DESIGN IS BASED ON ASCE 7-10 CH 27 MWFRS DIRECTIONAL PROCEDURE cont. 544 6 Assume Cp-0.3 13 6f psf �y I ,/� 8 := 35 1 Cp- o.6 400, Aiiihi III 8ft 9.17 psf Mill 6.1 psf Mean Roof Height 18+ 22 = 20 2 Loads at Roof roof-ave Windward 3.44•psf•5.5•ft=1822 plf Leeward 6.88•psf•5.5.ft= 37.84 plf Wall loads at upper level at main level Windward 8.43psf•4.ft= 33.72plf 8.43•psf•8.5•ft= 71.66plf Leeward 5.73•psf•4-ft= 22.92 plf 5.73•psf•8.5•ft=48.71 plf II 14,41417 tail:" Roof A 0MsQ1) V + -� i i L-6 11 u u 16 n )1r1 it 11 bi II 47 t I 1 II I i In a7.0. �� .1—.1.1 . —1 I PRE. 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II '� ILII I4�B 15 II III I, 111 II ,_ 4 aorti, ; a 171(1701 *,jatO I` GREEN MOUNTnIN PROJECT: Riverside - 2885 structural engineering DATE: 12/4/2017 By: _ CM JOB NO: 17485 SHEET: L-9 LATE RAL SHEAR WALL DESIGN Pdl Pdl 4 Wdl 4 p (V) P:= wind V:= seismic h R=Holdown Force Based on 2012 IBC Basic Load Combinations 1605.31 0.6D+ W (Equation 16-11) 0.6.D+ 0.7•E (Equation 16-12) Overturning Moment: Mot:= P•h L2 Resisting Moment: Mr:= 0.6•(Wdi + Wwa„)•(2 + 0.6•POI•L Mot— M� Holdown Force R L II GREEN MOUNTMIN PROJECT: Riverside - 2885 structural engineering DATE. 12/4/2017 BY: CM JOB NO: 17485 SHEET: L-10 LATE RAL Left Elevation Exterior Wal Is Second Level Wind Force P:= 2260.1b P= 2260 lb Length of wall L:= 5.ft+4•ft+ 19•ft L= 28ft P Shear v:= — v= 80.71 plf A 5 Overturning Mot:= P•8 ft•28 Mot= 322557Ib•ft Moment (5.ft)2 Resisting Mr:= 0.6•(15•psf•2•ft+10•psf•8•ft)• 2 + 0.6.600•Ib•5•ft Moment Mr= 2625lb•ft Mot— Mr Holdown =120.71 lb Force 5.ft Main Level Wind Force P:= 4660.1b P=4660 lb Length of wall L:= 14•ft+ 10•ft+ 8•ft L= 32ft P Shear v:= L v=145.63pIf 5 8 Overturning Mot:= P•9•ft•32 Mot=10485lb•ft Moment (8•ft)2 Resisting Mr:= 0.6•(15•psf•2•ft+ 10•psf•17•ft)• 2 + 0.6.800•Ib•8•ft Moment Mr= 76801b•ft Mot— Mr Holdown = 350.63 lb 8'ft Force II GREEN MOUNThIN PROJECT: Riverside - 2885 tor, structural engineering DATE: 12/4/2017 BY: CM JOB NO: 17485 SHEET: L-1 LATE RAL Front Elevation Exterior Walls Second Level Wind Force P:= 2373•Ib P= 2373 lb Length of wall L:= 3.5ft+ 3•ft+ 3.5-ft+ 3.5•ft L=13.5ft P Shear v:= — v=175.78plf S 3.5 Overturning Mot:= P•8•ft•— Mot=4921.78lb.ft Moment 13.5 (3.5•ft)2 Resisting Mr:= 0.6•(15•psf•4.ft+10•psf•8•ft)• 2 + 0.6.600•Ib•3.5•ft Moment Mr=1774.5lb.ft Mot— M� Holdown = 899.22 lb Force 3. -ft5 MSTC4853 Main Level Wind Force P:= 2988•lb P= 2988 lb Length of wall L:= 2.25•ft+ 2.25•ft+1.5•ft+1.5•ft L= 7.5ft 2.25.35= 7.88 P Shear Wind v:= - v= 398.4 plf D 2.25 Overturning Mot:= P•7.88•ft• 7—5 Mot= 7063.63lb•ft Moment (2.25•ft)2 Resisting Mr:= 0.6.(15.psf•4•ft+10.psf•8•ft) 2 + 0.6.800•lb•2.25•ft Moment Mot— Mr Mr=1292.63lb•ft Holdown = 2564.89 lb Force 2.25•ft HITS GREEN MOUNTS INPROJECT: Riverside - 2885 . Mw structural engineering DATE: 12/4/2017 BY: CM JOB No: 17 4 8 5 SHEET: L-12 LATERAL Right Elevation Exterior Walls Second Level Wind Force P:= 2260-lb P= 2260 lb Length of wall L:= 8•ft+ 5•ft+ 4•ft L=17ft P Shear v:= j v=132.94 plf A 4 Overturning Mot:= P•8•ft•17 Mot=4254.12lb•ft Moment (4-ft)2 Resisting Mr:= 0.6•(15•psf.2•ft+10•psf•8•ft)• 2 + 0.6.600•Ib•4•ft Moment Mr=1968 lb•ft Ma— Mr Holdown = 57153 lb Force 4-ft Main Level Wind Force P:= 4660•Ib P=4660 lb Length of wall L:= 15•ft+ 8•ft+ 3•ft L= 26ft P Shear v:= L v= 179.23p1f S 8 Overturning Mat:= P•9•ft.— Mot=12904.62Ib•ft 26 Moment (8•ft)2 Resisting Mr:= OZ.(15•psf•2•ft+ 10•psf•17•ft)• 2 + 0.6.800•lb•8•ft Moment Mr= 7680lb•ft Mat— Mr Holdown = 653.08 lb Force 8-ft IA PROSECT: Riverside - 2885 GREEN MOUNTAIN structural engineering DATE: 12/4/2017 BY: CM JOB NO: 17485 SHEET: L-13 LATERAL Rear Elevation Exterior Walls Second Level Wind Force P:= 23731b P= 2373 lb Length of wall L:= 7.5•ft+11•ft+ 4•ft L= 22.5ft P Shear v:= L v=105.47plf A 7.5 Overturning Mme:= P•8.ft•— Mot= 6328lb-ft Moment 22.5 (7.5•ft)2 Resisting Mr:= 0.6•(15.psf.2•ft+10.psf.12.ft)• 2 + 0.6.600•lb•7.5•ft Moment Mr=5231.251b•ft Mot— Mr Holdown =146.23 lb Force 7.54t Main Level Wind Force P:= 3813.1b P= 38131b Length of wall L:= 6•ft+ 7•ft+4.ft L=17ft P Shear Wind v:= — v= 224.29plf S 4 Overturning Mot:= P•9•ft•17 Mot= 8074.59lb•ft Moment (4•ft)2 Resisting Mr:= 0.6•(15•psf•4•ft+10•psf•8•ft)• 2 + 0.6.800•Ib•4•ft Moment Mot— Mr Mr= 25921b•ft Holdown = 1370.65 lb Force 4.ft HITS GREEN MOUNTVIINPROJECT: Riverside - 2885 IOWstructural engineering DATE: 12/4/2017 BY: CM JOB MO: 17485 SHEET: L-14 LATERAL Interior Shear Walls at back of Garage Main Level Wind Force P:= 4069•lb P=4069lb Length of wall L:= 18-ft L=18ft P Shear Wind v:= — v= 226.06plf Overturning Mot:= P•9•ft Mat= 36621lb•ft Moment (18•ft)2 Resisting Mr:= 0.6•(10•psf•12•ft+ 10•psf.9•ft)• 2 + 0.6.1200•lb•18•ft Moment Mot— Mr M�= 353721b•ft Holdown = 180.5 lb Force 18•ft . GREEN MOUNTVIIN PROJECT: Riverside - 2885 structural engineering DATE: 12/4/2017 BY: CM LATERAL JOB NO: 17485 SHEET; L-15 WIND ON PORCH ROOF 126 MPH,EXP B w:= 6•ft•(4.43•psf+ 8.86•psf) w= 79.7 plf // D / / / II II 11 �I w �� li L 1 I) T cII II I L� III 1 I r DESIGN ROOF TO CANTILEVER FROM HOUSE L:= 10•ft D:= 11•ft w•L2 M:= 2 M= 3987lbft support beam on post In wall at house with M Simpson HUCQ-SDS C:= — T:= C C= 398.71b L 12 SDS 1/4x21/4 screws(min)x172 lbs=2064 In combined withdraw w•L Nail top and bottom chord of first truss to wall with v:= p v= 72.49 plf (2)16d nails at 16"o.c.(web to studs)