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Specifications (143)
y3/451-zoo - 00322, RECEIVED 163o 7 6 ciJCL A v- CT ENGINEERING ( 4 2017 Structural Engineers AUG 1� 180 Nickerson Street Suite 302 Seattle, WA 98109 INC. 206.285.4512 (V) 206.285.0618 (F) CITY OF TIGARD R1 IUflNG DIVISION #15238 Structural Calculations River Terrace �#o N 4t1,j Plan 19 �� �� 60 •' . , • Elevation A �d Tigard, OR 411% CEC0N, k 1 � T. G�\��� Design Criteria: 2012 IBC (ORSC, OSSC) 11/04/2015 ASCE 7-10 Wind Speed: 120(ULT); 93(ASD); Kzt=1 .0 Seismic: Ss=0.972, S1 =0.423, SDC=D Roof Snow Load = 25 psf Site Class = D, Bearing = 2000 psf Client: Polygon Northwest Company 109 East 13th Street, Suite 200 Vancouver, WA 98660-3229 Ph: 360.695.7700 Fax: 360.693.4442 Architect: Milbrandt Architects 25 Central Way, Suite 210 Kirkland, WA 98033 P h: 42 5.45 4.713 0 Fax: 425.646.0945 CT ENGINEERING 180 Nickerson St. INC Suite 302 Seattle,WA 98109 (206)285-4512(V) (206)285-0618(F) Polygon Northwest Company Multiple locations in Tigard, OR DESIGN SUMMARY: (Note-Dual reference for Plan 19 also includes Plan 5019) The proposed project is to be single-family homes. We understand that these homes are to be constructed in multiple locations throughout Tigard, Oregon. Design parameters are as noted below: The structures are two-story wood-framed. Roof framing is primarily with pre-manufactured pitched chord wood trusses. Upper floor framing is primarily with pre-manufactured parallel chord wood trusses. Floor framing over crawlspace is primarily pre-manufactured wood joists. The foundations are to be conventional spread footings. Wind design is based on the ASCE 7-10 MWFRS (Envelope Procedure)for 120 mph ultimate wind speed, exposure category B, and with a Kzt value of 1.00. Lateral design is based on the ASCE 7-10"equivalent lateral force" procedure with Ss equal to or less than 1.10 and S1 equal to or less than 0.50 and with soil classification"D". Plywood or OSB shearwalls are the primary lateral force resisting system (R=6.5). . Foundations have been sized for Class 4 soils as defined in IBC 1806.2. Codes considered; 2012 IBC, and currently adopted ORSC and OSSC. SHEET TITLE: DEAD LOAD SUMMARY CT PROJECT# : CT# 14301: Plan 5019 ABD ROOF Roofing- 3.5 psf Roofing-future 0.0 psf 5/8" plywood (O.S.B.) 2.2 psf Trusses at 24"o.c. 4.0 psf Insulation 1.0 psf (1) 5/8"gypsum ceiling 2.8 psf Misc./Mech. 1.5 psf ROOF DEAD LOAD 15.0 PSF FLOOR floor finish 4.0 psf NO gypsum concrete 0.0 psf 3/4" plywood (O.S.B.) 2.7 psf joist at 12" 2.5 psf Insulation 1.0 psf (1) 1/2"gypsum ceiling 2.2 psf Misc. 2.6 psf FLOOR DEAD LOAD 15.0 PSF 19 59.1 L L I 4%12 HDR 2)2x11 HDF 4x: HDR 1x12 HDR 4x12 HDR 1 d....—.�.�.�_ • .1, �-----E}..—.—.-----� 4 . I 11 RBA3 II 4Z17 1 I 17 F- L 3)2X10 HDR1 ,—.—.—. .—I/ i RBA2 j ' I. z . 25 I>� 1 59.1 r ,� Cni LI —; 1 59.1 'e T11C'00I ArnI ACCESSI zw _1 L__J . h w 1 u L i - --- --- S r= w 1E.' ri A i co13 . i\ = I ,` , A\ O 1 I \ 59.7 ¢a I L / . 1 � % I= \ i a I , /' ii'm ,: I �, . 1I PI; , J .1 to • - [ 1 I , 1 j a\ ... 5 , .. ::: I I I RBA1 l td 6.:•:-:%:i.; 1 u Gl'IJ UU u. a • 'V u,\ ' 6 I \ 1151, R /Z 2x10 .' S9.t 1 R fl -'R 7....' R R R R R .-'n R.,T[j� ::) r 19 1 , • 47. • a .:.II .IG.w •.: u 11 , r2)z19�pp(��)2zry HD 2zlA FDB 59.1 L J 1 MIN.HDR i MIN2R.. L----J 1 GABLE'END TRUSS I L GABLE IEND TRUSS J L_L J J 16 59. ALL BEAMS/HDRS NOT LABELED ARE 'SIM'IN DESIGN TO BEAMS/HDRS WHICH ARE LABELED Plan 1 9A ROOF FRAMING PLAN 114'=1'-0'. Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 12.26PM, 20 NOV 14 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580006 User KW-0602997,Ver 5.8.0,1-Dec-2003 Timber Beam & Joist Page 1 (c)1983-2003 ENERCALC Engineering Software plan 5019 abd.ecw:Calculations Description 5019A- ROOF FRAMING Timber Member Information :ode Ref.1997/2001 NDS,2000/2003 IBC,2003 NFPA 5000.Base allowables are user defined RBA1 RBA2 RBA3 Timber Section 2-2x8 3-2x8 4x12 Beam Width in 3.000 4.500 3.500 Beam Depth in 7.250 7.250 11.250 Le:Unbraced Length ft 0.00 0.00 0.00 Timber Grade Hem Fir,No.2 Hem Fir,No.2 Douglas Fir- Larch,No.2 Fb-Basic Allow psi 850.0 850.0 900.0 Fv-Basic Allow psi 150.0 150.0 180.0 Elastic Modulus ksi 1,300.0 1,300.0 1,600.0 Load Duration Factor 1.150 1.150 1.150 Member Type Sawn Sawn Sawn Repetitive Status No No No Center Span Data Span ft 3.00 6.00 7.50 Dead Load #/ft 360.00 345.00 360.00 _Live Load #/ft 600.00 575.00 600.00 Results Ratio= 0.4204 0.9917 0.9637 "`,. �., ,..rte "� . ,•,: b .F; Mmax @ Center in-k 12.96 49.68 81.00 @ X= ft 1.50 3.00 3.75 fb:Actual psi 493.1 1,260.2 1,097.1 Fb:Allowable psi 1,173.0 1,270.8 1,138.5 Bending OK Bending OK Bending OK fv:Actual psi 59.6 101.5 103.1 Fv:Allowable psi 172.5 172.5 207.0 Shear OK Shear OK Shear OK Reactions 3a�.�"�5050 '> Z".',u\\•. &bh: :. N , @ Left End DL lbs 540.00 1,035.00 1,350.00 LL lbs 900.00 1,725.00 2,250.00 Max.DL+LL lbs 1,440.00 2,760.00 3,600.00 @ Right End DL lbs 540.00 1,035.00 1,350.00 LL lbs 900.00 1,725.00 2,250.00 Max.DL+LL lbs 1,440.00 2,760.00 3,600.00 Deflections Ratio OK Deflection OK Deflection OK Center DL Defl in -0.005 -0.054 -0.039 UDefl Ratio 6,795.8 1,329.6 2,333.4 Center LL Defl in -0.009 -0.090 -0.064 UDefl Ratio 4,077.5 797.8 1,400.0 Center Total Defl in -0.014 -0.144 -0.103 Location ft 1.500 3.000 3.750 UDefl Ratio 2,548.4 498.6 875.0 --- --- --- ---- - VW FB1 656 6x6 NN p U 6< O< R 2z LEDGER THDI4RJ 4®HDR . _ 6PI �®l& STHDI4RJ _r__61�r r� LVL 17:i) .��� ' .. I-, 11� B . INaall 1 , 5X�RESSSiH�14RJ 1FThGTJ iifi n 16111 ii =EARN El s$ E1111 1 I1 ' o i NW 'l 1 I 1 . B: 'INC ALL - b. I 63'24 BFB 24 G B FB ;�I.k7o: \\\\\S:' ___ ____ — — — p". D :1 C -r 811 16 BIG:EA M .• El FB14 is .,. :: ,r' OPEN',... S (_ - I __ __ __ _-_ __ �''i STAIR T,(_OAD 1 FRAMING (1'25C') GT FB FIX RES _ _ c—..i. 2x LEDGER I �� V i S: ,Pd ' 1,. . .:1F Z O \ ® .T L,. '"' ADi 2x11 TV F 42x4 FRAMING (.20/ - o. 6• 'j AT 24.O.C. I N OPEN TO BELOW , GT GT FB , g B RING WALL ABO %•' ..T.-LB!.. � (1x•.0 p1 Is' p6000PT.L 1AD GT _= 1 2x10 HD:`�,,1 . (Bn0/) • ABOVE .� , 1I / -BO : . . ._ _t _® . 1:BIG .EAM I• U` �. © 594x GL:'FBlb] Ej pia ISI►, , I� __. _. __ 7 S1H014 5THD14 4�' A x ')2x10 NOR(2)2x10 H0: 2)2210 HDR(2)2:10 HD'W 1 515014RJ m� d r�,� BEARING WALL ABOVE 2z LEDGER uI �-iY4 2x LEDGER STRUCTURAL �� i I I STRUCTURAL ®� (210 P1� I FASCIAMONO TRUSSES FASCIA —. B2 : MONO TRUSSES ALL BEAMS/HDRS NOT LABELED ARE o z4 ac.,,:. p � � O 24•D.G. 'SIM'IN DESIGN TO BEAMS/HDRS 6x6 16x6 WHICH ARE LABELED ® 19 59.1 UPPER FLOOR FRAMING PLAN& Plan 1 9A LOWER FLOOR SHEAR PLAN 1/4'=r-0' Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 5:13PM, 9 DEC 14 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580006 User.KW-0602997,Ver 5.8.0,1-Dec-2003 Timber Beam & Joist Page 1 (c)1983-2003 ENERCALC Engineering Software plan 5019 abd.ecw:Calculations Description 5019ABD- UPPER FLOOR FRAMING (1 OF 3) [limber Member Information erode Ref:1997/2001 NDS,2000/2003 IBC,2003 NFPA 5000.Base allowables are user defined FBI FB2A FB2B FB2D FB3 FB4 FB5B Timber Section 6x12 4x8 4x8 2-2x8 2-2x8 2-2x8 2-2x8 Beam Width in 5.500 3.500 3.500 3.000 3.000 3.000 3.000 Beam Depth in 11.500 7.250 7.250 7.250 7.250 7.250 7.250 Le:Unbraced Length ft 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Timber Grade Douglas Fir- Douglas Fir- Douglas Fir- Hem Fir,No.2 Hem Fir,No.2 Hem Fir,No.2 Hem Fir,No.2 Larch,No.1 Larch,No.2 Larch,No.2 Fb-Basic Allow psi 1,350.0 900.0 900.0 850.0 850.0 850.0 850.0 Fv-Basic Allow psi 170.0 180.0 180.0 150.0 150.0 150.0 150.0 Elastic Modulus ksi 1,600.0 1,600.0 1,600.0 1,300.0 1,300.0 1,300.0 1,300.0 Load Duration Factor 1.150 1.150 1.150 1.150 1.000 1.150 1.150 Member Type Sawn Sawn Sawn Sawn Sawn Sawn Sawn Repetitive Status No No No No No No No Center Span Data Span ft 19.00 8.50 10.25 6.50 4.00 5.00 3.00 Dead Load #/ft 75.00 83.00 90.00 60.00 176.00 160.00 225.00 Live Load #/ft 125.00 138.00 150.00 100.00 470.00 127.00 555.00 Point#1 DL lbs 461.00 LL lbs 769.00 @ X ft 2.750 Results Ratio= 0.5754 0.5806 0.9168 0.3289 0.5784 0.3491 0.4040 Mmax @ Center in-k 108.30 23.95 37.82 10.14 15.50 10.76 12.46 @ X= ft 9.50 4.25 5.12 3.25 2.00 2.50 1.63 fb:Actual psi 893.3 781.1 1,233.6 385.8 589.9 409.5 473.9 Fb:Allowable psi 1,552.5 1,345.5 1,345.5 1,173.0 1,020.0 1,173.0 1,173.0 Bending OK Bending OK Bending OK Bending OK Bending OK Bending OK Bending OK fv:Actual psi 40.7 48.0 64.6 29.3 62.7 37.6 55.5 Fv:Allowable psi 195.5 207.0 207.0 172.5 150.0 172.5 172.5 Shear OK Shear OK Shear OK Shear OK Shear OK Shear OK Shear OK Reactions @ Left End DL lbs 712.50 352.75 461.25 195.00 352.00 400.00 375.92 LL lbs 1,187.50 586.50 768.75 325.00 940.00 317.50 896.58 Max.DL+LL lbs 1,900.00 939.25 1,230.00 520.00 1,292.00 717.50 1,272.50 @ Right End DL lbs 712.50 352.75 461.25 195.00 352.00 400.00 760.08 LL lbs 1,187.50 586.50 768.75 325.00 940.00 317.50 1,537.42 Max.DL+LL lbs 1,900.00 939.25 1,230.00 520.00 1,292.00 717.50 2,297.50 Deflections Ratio OK Deflection OK Deflection OK Deflection OK Deflection OK Deflection OK Deflection OK Center DL Defl in -0.197 -0.055 -0.126 -0.019 -0.008 -0.018 -0.004 UDefl Ratio 1,156.3 1,860.8 978.6 4,008.8 5,864.3 3,302.8 8,548.3 Center LL Defl in -0.329 -0.091 -0.209 -0.032 -0.022 -0.014 -0.010 UDefl Ratio 693.8 1,119.2 587.2 2,405.3 2,196.0 4,161.0 3,724.1 Center Total Defl in -0.526 -0.146 -0.335 -0.052 -0.030 -0.033 -0.014 Location ft 9.500 4.250 5.125 3.250 2.000 2.500 1.536 UDefl Ratio 433.6 698.8 367.0 1,503.3 1,597.7 1,841.3 2,594.0 Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 5:13PM, 9 DEC 14 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580006 User.KW-0602997,Ver 5.8.0,1-Dec-2003 Timber Beam & Joist Page 1 (c)1983-2003 ENERCALC Engineering Software plan 5019 abd.eav:Calculations Description 5019ABD- UPPER FLOOR FRAMING (2 OF 3) Timber Member Information :ode Ref:1997/2001 NDS,2000/2003 IBC,2003 NFPA 5000.Base allowables are user defined FB5D FB6A/FB6D*** FB6B*** FB7* FB8 FB9** FB10*** Timber Section 5.125x24 Prllm:5.25x16.0 Prllm:5.25x16.0 LVL:3.500x11.875 4x12 4x8 Prllm:5.25x16.0 Beam Width in 5.500 5.500 5.500 3.500 3.500 3.500 5.500 Beam Depth in 24.000 16.000 16.000 11.875 11.250 7.250 16.000 Le:Unbraced Length ft 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Timber Grade 'ouglas Fir,24F- Truss Joist- Truss Joist- Truss Joist- Douglas Fir- Douglas Fir- Truss Joist- V4 MacMillan, MacMillan, MacMillan, Larch,No.2 Larch,No.2 MacMillan, Fb-Basic Allow psi 2,400.0 2,900.0 2,900.0 2,600.0 900.0 900.0 2,900.0 Fv-Basic Allow psi 240.0 290.0 290.0 285.0 180.0 180.0 290.0 Elastic Modulus ksi 1,800.0 2,000.0 2,000.0 1,900.0 1,600.0 1,600.0 2,000.0 Load Duration Factor 1.150 1.150 1.150 1.150 1.150 1.000 1.000 Member Type GluLam Manuf/Pine Manuf/Pine Manuf/Pine Sawn Sawn Manuf/Pine Repetitive Status No No No No No No No Center Span Data Span ft 12.00 16.00 16.00 8.00 4.00 9.00 14.50 Dead Load #/ft 188.00 315.00 180.00 248.00 180.00 38.00 311.00 Live Load #/ft 489.00 555.00 480.00 600.00 480.00 100.00 830.00 Point#1 DL lbs 90.00 450.00 2,054.00 2,498.00 LL lbs 150.00 750.00 3,424.00 4,163.00 @ X ft 1.000 0.500 1.500 1.250 Point#2 DL lbs 180.00 450.00 450.00 LL lbs 300.00 750.00 750.00 @ X ft 4.500 15.500 3.000 Point#3 DL lbs 180.00 1,475.00 LL lbs 300.00 2,458.00 @ X ft 7.500 5.750 Point#4 DL lbs 90.00 LL lbs 150.00 @ X ft 11.000 Results Ratio= 0.1322 0.4269 0.3330 0.9784 0.9777 0.4674 0.5288 Mmax @ Center in-k 175.03 334.08 260.64 206.38 82.18 16.77 359.84 @ X= ft 6.00 8.00 8.00 3.55 1.25 4.50 7.25 fb:Actual psi 331.5 1,423.6 1,110.7 2,508.9 1,113.2 546.8 1,533.4 Fb:Allowable psi 2,704.2 3,335.0 3,335.0 2,990.0 1,138.5 1,170.0 2,900.0 Bending OK Bending OK Bending OK Bending OK Bending OK Bending OK Bending OK fv:Actual psi 36.5 99.7 75.6 320.7 201.4 32.0 116.2 Fv:Allowable psi 276.0 333.5 333.5 327.8 207.0 180.0 290.0 Shear OK Shear OK Shear OK Shear OK Shear OK Shear OK Shear OK Reactions @ Left End DL lbs 1,398.00 2,520.00 1,890.00 3,356.97 2,077.37 171.00 2,254.75 LL lbs 3,384.00 4,440.00 4,590.00 6,342.06 3,822.06 450.00 6,017.50 Max.DL+LL lbs 4,782.00 6,960.00 6,480.00 9,699.03 5,899.44 621.00 8,272.25 @ Right End DL lbs 1,398.00 2,520.00 1,890.00 2,606.03 1,140.62 171.00 2,254.75 LL lbs 3,384.00 4,440.00 4,590.00 5,089.94 2,260.94 450.00 6,017.50 Max.DL+LL lbs 4,782.00 6,960.00 6,480.00 7,695.97 3,401.56 621.00 8,272.25 Deflections Ratio OK Deflection OK Deflection OK Deflection OK Deflection OK Deflection OK Deflection OK Center DL Defl in -0.010 -0.124 -0.074 -0.077 -0.009 -0.032 -0.082 UDefl Ratio 14,801.5 1,552.1 2,594.7 1,250.0 5,523.6 3,423.9 2,112.1 Center LL Defl in -0.023 -0.218 -0.194 -0.147 -0.016 -0.083 -0.220 UDefl Ratio 6,153.7 880.9 989.6 655.1 2,994.0 1,301.1 791.4 Center Total Defl in -0.033 -0.342 -0.268 -0.223 -0.025 -0.115 -0.302 Location ft 6.000 8.000 8.000 3.936 1.856 4.500 7.250 UDefl Ratio 4,346.6 562.0 716.4 429.9 1,941.7 942.8 575.7 *An equal sized 'RigidLam' **A GT may be used in ***An equal sized 'BigBeam' beam may be used in place of place of beam shown may be used in place of beam beam shown shown Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 3:31PM, 23 FEB 15 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580006 User.KW-0602997,Ver 5.8.0,1-Dec-2003Page 1 (c)1983-2003 ENERCALC Engineering Software Timber Beam & Joist plan 19 abd.ecv✓:Calculations Description 5019ABD- UPPER FLOOR FRAMING (3 OF 3) Timber Member Information erode Ref: 1997/2001 NDS,2000/2003 IBC,2003 NFPA 5000.Base allowables are user defined FB11 FB12A FB13 Timber Section 6.75x24 6.75x24 6.75x24 Beam Width in 6.750 6.750 6.750 Beam Depth in 24.000 24.000 24.000 Le:Unbraced Length ft 0.00 0.00 0.00 Timber Grade uglas Fir,24F- Douglas Fir,24F- Douglas Fir,24F- V4 V4 V4 Fb-Basic Allow psi 2,400.0 2,400.0 2,400.0 Fv-Basic Allow psi 240.0 240.0 240.0 Elastic Modulus ksi 1,800.0 1,800.0 1,800.0 Load Duration Factor 1.000 1.150 1.000 Member Type GluLam GluLam GluLam Repetitive Status No No No [Center Span Data Span ft 20.50 20.00 9.25 Dead Load #/ft 360.00 656.00 180.00 Live Load #/ft 960.00 1,135.00 480.00 Dead Load #/ft -465.00 Live Load #/ft -625.00 Start ft 3.000 End ft 17.000 Point#1 DL lbs 2,250.00 LL lbs 3,750.00 @ X ft 3.000 Point#2 DL lbs 2,250.00 LL lbs 3,750.00 @ X ft 17.000 Results Ratio= 0.5880 0.4263 0.0669 Mmax @ Center in-k 832.09 695.47 84.71 @ X= ft 10.25 10.00 4.62 fb:Actual psi 1,284.1 1,073.3 130.7 Fb:Allowable psi 2,183.7 2,517.5 2,364.6 Bending OK Bending OK Bending OK fv:Actual psi 101.2 117.6 16.1 Fv:Allowable psi 240.0 276.0 240.0 Shear OK Shear OK Shear OK Reactions @ Left End DL lbs 3,690.00 5,555.00 832.50 LL lbs 9,840.00 10725.00 2,220.00 Max.DL+LL lbs 13529.99 16280.00 3,052.50 @ Right End DL lbs 3,690.00 5,555.00 832.50 LL lbs 9,840.00 10725.00 2,220.00 Max.DL+LL lbs 13529.99 16280.00 3,052.50 Deflections Ratio OK Deflection OK Deflection OK Center DL Defl in -0.102 -0.102 -0.002 UDefl Ratio 2,407.0 2,346.9 52,401.2 Center LL Defl in -0.273 -0.216 -0.006 UDefl Ratio 902.6 1,113.0 19,650.4 Center Total Defl in -0.375 -0.318 -0.008 Location ft 10.250 10.000 4.625 UDefl Ratio 656.5 755.0 14,291.2 Y-8. 11'-53- 10'-27/6- 21'-4) 6.-117x. 1 5Y4. 5Y4. AI AEI _ - 6X6 r J '_! THICKENED L-, 6X6 SLAB EDGE r 314' CONC ' PATIO SLAB gig`• � 9 -�-3. 1 D Omt 51 _p_7• S7HD74RJ P{ '�W S7H014RJ -1-2-I Pa-- 7 I 1H014RJ f/ a-- y-y T�S1HD Mt. 1" ISI y I1\I ISI I 1 N-J 1 - :::::::1::::. ........::::::::::::::::::::::::::::::::1:::: ::::? _ QI eoTT)w: 1 si im., A4 Q SMD"R J I ':(TYP U-14J1)- : ' POST I :i ♦ 1 m MEM ..!- +— . . 1 FINISHEO FLOORI S::::::R4 , SLOPE I t 1.: ..t./ 47"DN -. -1.''� t::-.1''' I I: .'l. 314"CONC. PATO SLAB— ,(D, 1 01cl.. .1 �L. ,f ■- 36"5 0.x10 �.".j ;: f 2X6 PONY WA¢�� r - DEEP FTG W/ - rJ L1 •-+i-1144'I -113/4" -L .: wGlou--.134x9XJ - {4)/4:B9Ti W 1 •� _—_ ---J->: " -(4)226-1.-:-:-:-:::-::-::4-,.1-.-:-:-:-::-:-.-:-::.,s-- I. r.(4)2415 i I1 56.0 14'-6)2- mi _5 6Y4___ 3.10Y2 :5 OY!L *. , ). 4Y! 1 13-i.- - 171' L , f r1:� rI1 .. .1. VARIES: MIN. 1 I 78"i2�4 I_. SSIID14 FJ :7- O- E -3"FROM TOP OF 7 CR:gWL. ,.7�, E a STEM WALL of _ t I ACCESS �I i _ 7 � �.,�. '. '- .'. 1. 56.0 3)4" CONC. ^ t S444.%....'1'!- ^ 1 SLAB -: • OVER 4"FREE P6 ........74.2-.-Y--!!‘11--... 7.'.;i:.:......:::::.:::: RIGIDhM LVL N' }}I ,,LL�� DRAINAGE MATERIAL ` r ya L' '—'_'T,+, OVER COMPACTEDFlrLL I ... j- I _7' ® 11#" :HEWS ? VERIFY GARAGE I- 7 'Witt); 8)z" - t�/ 20 SLAB HEIGHT •, :- .-. ♦ - ' - ' --1_ I 02 jj WITH GRADING PLAN r � w ..-a7� �::.. ...:.; �:. -Y I J -.r11::::::::::::::::`l :,L.- -----.—. J 'f. i m # .. I Y El'FTG W/Ca1-_-. 36 50 x1p' j-a -0-3"I .1.:':-:'''''''.-.."--7L'''�= T • (4 /4:BOTT EW ::'..-:':-.•::::i.:'.'..'.:..- -DEEP FTG-Y,/...-.1-, -- - 1 \ BQnEwiL3BLOOUT r :1. , ®STEM WALL TYP J f' I : L I I i :. 1-:::::.-:-:- .. : : : I TT# - 1161 7 ,�„ 7.0.5. � I WI 75 a 53)4` CONC. L-1 111 ,-1 s6.D PORCH SLAB L 5701014 18 5T1i574 -57HD14sTH014RZJ 56.1 10 n 1. 0 6 51.2 56.0 In THICKENED NSLAB EDGE 6,6—I � 6x6 w• } ® 9'-0• } i 2-1) 16'-3" � 10•-9- 19-6�4 1 1 Plan 1 9A FOUNDATION PLAN 1/4-=1'-0- ALL BEAMS/HDRS NOT LABELED ARE 'SIM' IN DESIGN TO BEAMS/HERS WHICH ARE LABELED Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 1:04PM, 24 NOV 14 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580006 User.KW-0602997,Ver5.8.0,1-Dec-2003 Timber Beam & Joist Page 1 (c)1983-2003 ENERCALC Engineering Software plan 5019 abd.ecw Calculations Description 5019ABD-MAIN FLOOR FRAMING Timber Member Information erode Ref:1997/2001 NDS,2000/2003 IBC,2003 NFPA 5000.Base allowables are user defined CB1 Timber Section 4x10 Beam Width in 3.500 Beam Depth in 9.250 Le:Unbraced Length ft 0.00 Timber Grade Douglas Fir- Lardi,No.2 Fb-Basic Allow psi 900.0 Fv-Basic Allow psi 180.0 Elastic Modulus ksi 1,600.0 Load Duration Factor 1.000 Member Type Sawn Repetitive Status No enter Span Data Span ft 6.50 Dead Load #/ft 184.00 Live Load #/ft 490.00 Results Ratio= 0.7924 Mmax©Center in-k 42.71 @ X= ft 3.25 fb:Actual psi 855.8 Fb:Allowable psi 1,080.0 Bending OK fv:Actual psi 77.9 Fv:Allowable psi 180.0 Shear OK LReactions @ Left End DL lbs 598.00 LL lbs 1,592.50 Max.DL+LL lbs 2,190.50 ©Right End DL lbs 598.00 LL lbs 1,592.50 Max.DL+LL lbs 2,190.50 Deflections Ratio OK Center DL Defl in -0.020 UDefl Ratio 3,898.4 Center LL Defl in -0.053 UDefl Ratio 1,463.9 Center Total Defl in -0.073 Location ft 3.250 UDefl Ratio 1,064.2 2012 IBC SEISMIC OVERVIEW SHEET TITLE: 2012 IBC SEISMIC OVERVIEW CT PROJECT#: CT#14301: Plan 5019 ABD Step# 2012 IBC ASCE 7-10 1. RISK CATEGORY TYPE= II Table 1604.5 Table 1.5-1 OCCUPANCY CATEGORY 2. IMPORTANCE FACTOR IE= 1.00 Section 1613.1 ->ASCE Table 1.5-2 3. Site Class-Per Geo. Engr. S.C. = D Section 1613.3.5 Section 11.4.2/Ch.20 Table 1613.3.3(2) Table 20.3-1 4. 0.2 Sec. Spectral Response Ss= 1.10 Figure 1613.3.1(1) Figure 22-1 5. 1.0 Sec.Spectral Response S1= 0.50' Figure 1613.3.1(2) Figure 22-2 Latitude=Varies N Longitude= Varies W http://earthquake.usos.gov/research/hazmaps/ http://earthquake.usgs.qov/designmaps/us/application.php 6. Site Coefficient(short period) Fa= 1.06Figure 1613.3.3(1) Table 11.4-1 7. Site Coefficient(1.0 second) Fv= 1.50 Figure 1613.3.3(2) Table 11.4-2 SMs= Fa*Ss SMs= 1.17 EQ 16-37 EQ 11.4-1 SM1=Fv*S1 SM1= 0.75 EQ 16-38 EQ 11.4-2 SDs=2/3*SMS SDs= 0.78 EQ 16-39 EQ 11.4-3 SD1=2/3*SM1 SD1= 0.50 EQ 16-40 EQ 11.4-4 8. Seismic Design Category 0.2s SDCs= D Table 1613.3.5(1) Table 11.6-1 9. Seismic Design Category 1.0s SDC, = D Table 1613.3.5(2) Table 11.6-2 10. Seismic Design Category SDC= D Max. Max. 11. Wood structural panels - - N/A Table 12.2-1 12. Response Modification Coef. R= 6.5 N/A Table 12.2-1 13. Overstrength Factor Do= 3.0 N/A Table 12.2-1 14. Deflection Amplification Factor CD= 4.0 N/A Table 12.2-1 15. Plan Structural Irregularities - No N/A Table 12.3-1 16. Vertical Structural Irregularities - No N/A Table 12.3-2 17. Permitted Procedure Equiv. Lateral Force - Table 12.6-1 Page 1 2012 IBC EQUIV.LAT.FORCE SHEET TITLE: 2012 IBC EQUIVALENT LATERAL FORCE PROCEDURE PER ASCE 7-10 CT PROJECT#: CT#14301:Plan 5019 ABD Sps= 0.78 h = 19.00(ft) SDI= 0.50 x = 0.75 ASCE 7-05(Table 12.8-2) R= 6.5 CI= 0.020 ASCE 7-05(Table 12.8-2) 1E= 1.0 T= 0.182 ASCE 7-05(EQ 12.8-7) S1= 0.50 k = 1 ASCE 7-05(Section 12.8.3) TL= 6 ASCE 7-05(Section 11.4.5:Figure 22-15) Cs=SDs/(R/IE) 0.120 W ASCE 7-05(EQ 12.8-2) Cs=SDI/(T*(R/IE)) (for T<TL) 0.423 W ASCE 7-05(EQ 12.8-3)(MAX.) Cs=(SDI*TL)/(T2*(R/IE)) (for T>T L) 0.000 W ASCE 7-05(EQ 12.8-4)(MAX.) Cs=0.01 0.010 W ASCE 7-05(EQ 12.8-5)(MIN.) Cs=(0.5 SI)/(R/IE) 0.038 W ASCE 7-05(EQ 12.8-6)(MIN.if Si>0.6g) CONTROLLING DESIGN BASE SHEAR= 0.120 W VERTICAL DISTRIBUTION OF SEISMIC FORCES PER ASCE 7-10 SECTION 12.8.3 (EQ 12.8-11) (EQ 12.8-12) C� = DIAPHR. Story Elevation Height AREA DL w; w; *h,k w, *h,k DESIGN SUM LEVEL Height (ft) h (ft) (sgft) (ksf) (kips) (kips) Ew; *h;k Vi DESIGN Vi Roof - 19.00 19.00 2400 0.022 52.8 10032 0.60 6.02 6.02 2nd 9.00 10.00 10.00 2400 0.028 67.2 672.0 0.40 4.03 10.05 1st(base) 10.00 0.00 SUM= 120.0 1675.2 1.00 10.05 E=V= 14.35(LRFD) 0.7*E= 10.05(ASD) Page 1 ASCE 7-10 WIND Part2 SHEET TITLE: MAIN WIND FORCE RESISTING SYSTEM USING LOADS FROM ASCE 7-10 CHAPTER 28,PART 2 CT PROJECT#: CT#14301:Plan 5019 ABD N-S E-W F-B S-S 2012 IBC ASCE 7-10 Ridge Elevation(ft)= 36.00 36.00 ft. Roof Plate Ht.= 19.00 19.00 Roof Mean Ht.= 27.50 27.50 ft. -- -- Building Width= 50.0 50.3 ft. V u/t. Wind Speed 3 se<.Gust= 120 120 mph Figure 1609 Fig. 26.5-1A thru C V asd. Wind Speed 3Sec.Gust= 93 ;,, 93 mph (EQ 16-33) Exposure= B B li,,,= 1A 1.0 N/A N/A Roof Type= Gable Gable Ps30 A= 25.7 25.7 psf Figure 28.6-1 P530 e= 17.6 17.6 psf Figure 28.6-1 Ps30 c= 20.4 20.4 psf Figure 28.6-1 Psso o= 14.0 14.0 psf Figure 28.6-1 X= 1.00 1.00Figure 28.6-1 Kzt= 1.00 1.00 Section 26.8 windward/lee=- 1.00 1.00(Single Family Home) X*Ke*I : 1 1 Ps=X{Kzt*I*ps3o= (Eq.28.6-1) PSA= 25.70 25.70 psf (LRFD) (Eq.28.6-1) Pse= 17.60 17.60 psf (LRFD) (Eq.28.6-1) Ps c = 20.40 20.40 psf (LRFD) (Eq.28.6-1) Ps o= 14.00 14.00 psf (LRFD) (Eq.28.6-1) Ps A and c average= 23.1 23.1 psf (LRFD) Ps a and D average= 15.8 15.8 psf (LRFD) a= 5 5 Figure 28.6-1 2a= 10 10 width-2*2a= 30 30.25 MAIN WIND-ASCE 7-10 CHAPTER 28 PART 2 Areas(N-S) Areas(E-W) (N-S) (E-W) Wind(N-S)(LRFD) Wind(E-W) (LRFD) width factor roof-> 1.00 1.00 0.89 0.89 16 psf min. 16 psf min. width factor 2nd-> 1.00 0.89 wind(LRFD) wind(LRFD) DIAPHR. Story Elevation Height AA AB Ac AD AA AB Ac AD per 28.4.4 per 28.4.4 WIND SUM WIND SUM LEVEL Height (ft) hi(ft) h(ft) (sq.ft)(sq.ft)(sq.ft)(sq.ft) (sq.ft)(sq.ft)(sq.ft)(sq.ft) Vi(N-S) V(N-S) Vi(E-W) V(E-W) 36.00 17.0 0 340 0 510 0 302.6 0 457.7 Roof - 19.00 19.00 4.5 90 0 135 0 90 0 121.2 0 17.2 15.5 18.19 18.19 16.52 16.52 2nd 9.00 10.00 10.00 9.5 190 0 285 0 190 0 287.4 0 7.6 7.6 10.70 28.89 10.75 27.26 1st(base) 10.00 0.00 0.00 0 0.00 0.00 AF= 1550 AF= 1449 24.8 23.2 V(n-s)= 28.89 V(e-w)= 27.26 klps(LRFD) kips(LRFD) kips kips Page 1 ASCE 7-10 Part 1 SHEET TITLE: MAIN WIND FORCE RESISTING SYSTEM USING LOADS FROM ASCE 7-10 CHAPTER 28,PART 1 CT PROJECT#: CT#14301:Plan 5019 ABD SEE SEAW RAPID SOLUTION SPREADSHEET AND INSERT VALUES BELOW MAIN WIND-7-10 CHAPTER 28 PART 1 Wind(N-S) Wind(E-W) Min/Part 2(Max.) Min/Method 1(Max.) Wind(N-S)(LRFD) Wind(E-W)(LRFD) DIAPHR. Story Elevation Height DESIGN SUM DESIGN SUM DESIGN SUM DESIGN SUM LEVEL Height (ft) hi(ft) Vi(N-S) V(NS) Vi(E-Ah V(E-W) Vi(N-S) V(N-S) Vi(E-VV) V(E-W) Roof - 19.00 19.00 ,.0.00 0.00 0.00 0.00 18.19 18.19 16.52 16.52 2nd 9.00 10.00 10.00 0.00 0.00 0.00 0.00 10.70 28.89 10.75 27.26 1st(base) 10.00 0.00 0.00 V(ns)= 0.00 V(e-w)= 0.00 V(ns)= 28.89 V(e-w)= 27.26 kips kips kips(LRFD) kips(LRFD) DESIGN WIND-Min./Part 2/Part 1 ASD Wind(N-S)(LRFD) Wind(E-W)(LRFD) Wind(N-S)(ASD) Wind(E-W)(ASD) 0.6'W 0.6*W DIAPHR. Story Elevation Height DESIGN SUM DESIGN SUM DESIGN SUM DESIGN SUM LEVEL Height (ft) hi(ft) Vi(N-S) V(N-S) Vi(E-W) V(E-W) Vi(N-S) V(N-S) Vi(E-W) V(E-IN) Roof 9 10 10 18.19 18.19 16.52 16.52 10.91 10.91 9.91 9.91 2nd 10 0 0 10.70 28.89 10.75 27.26 6.42 17.33 6.45 16.36 1st(base) 0 0 0 V(n-s)= 28.89 V(e-w)= 27.26 V(n-s)= 17.33 V(e-w)= 16.36 kips(LRFD) ki•s(LRFD) kips(ASD) kips(ASD) Page 1 Design Maps Summary Report Page 1 of 1 E.LEGS Design Maps Summary Report User-Specified Input Building Code Reference Document 2012 International Building Code (which utilizes USGS hazard data available in 2008) Site Coordinates 45.43123°N, 122.77149°W Site Soil Classification Site Class D -"Stiff Soil" Risk Category I/II/III I �rm�a'averton l 2 N , 3.t' '�o M iii 4th f • • .Fa(mm ;� � ��t�YY�lt>~kt8 y --' e''' ''„'-. Lake# swello 0 King Pity tyD team �f • it M 1 h Y I latins. tiF.. e ✓ . ,. .yam} ' USGS-Provided Output Ss = 0.972 g SMs = 1.080 g Sos = 0.720 g Si = 0.423 g SMI = 0.667 g So, = 0.445 g For information on how the SS and S1 values above have been calculated from probabilistic (risk-targeted) and deterministic ground motions in the direction of maximum horizontal response, please return to the application and select the"2009 NEHRP" building code reference document. MCE*Response Spectrum Design Response Spectrum 0.Se 1,1 . 60 0,22 0E8 0,64 1177 0,5 Ti #. 0.10 S 9.665 € 0,0 E 0.44 fl.22 0,24 0,21 0.16 0.22 8.11 0.06 000 4 0.20 0.40 0.00 0.10 1.00 1.20 1.40 1.00 1.10 2.00 0.00 0,22 0.40 0,00 040 1.09 1.20 1.40 1.00 1.00 2.08 Period,T(sec) Period, T tic? Although this information is a product of the U.S.Geological Survey,we provide no warranty,expressed or implied,as to the accuracy of the data contained therein.This tool is not a substitute for technical subject-matter knowledge. http://ehp2-earthquake.wr.usgs.gov/designmaps/us/summary.php?template=minimal&latit... 9/14/2015 t Nommi Roof Below 50'-0" 11'-5)" 36•-6Y2" 6'-0}" 5'-5- 9•-77A" 4'11}6' 11'-9}L2 1•-6- 5'-5V 4'-11Y2" 4'-11}i" 5'-3Y2" ea�.� _� o sH B2b 1�� ®wewwo� � 60 a 3`�1.. 'rQ 72.x 36" • Shower I 1'1'1''����lllppp"``j���,,,' Tub u In TUB PLATFORM a+2r A.F.F. Bia 6-0'4-0 SL Bib I IAULt CEILING - 4 2-a He -PER TRUSS DESIGN Master Bath Master Bedroom 2�i� O 2-4i. I.-11Yl� it'-7Y2" ` 4�1 1'-9}2' T-4Y2" �� 4' 11 6 11}f� ...: ,.y ::II - N 'n Q Bedroom 4 INSULATE FLOOR .. :: ^. OVER UNHEATED SPACE I S&P ® - ----__--__----- I i '1 Di I I----I 2-6 4 W 127v30'I '-4 j n 2-4 HC rncl h e I M1.�Nr IACCESiz.SI , I ,/ ' L J - d, m 2-BH W(J■ Q I ® — 7 Y i Wlcx Q �_ ii_ r a Laundry Ely WI •I II ml ALL BELOW 1 - _— Open to I ��� �' Bedroom 211 ni------1 2-0 4'-11 I � 5'-6Yi ! BIFO D Lmilk--- + I Bath2_4 HCW o11111 ® r� 11111 D" F II � �U, LOW WALL AT+42"A.F.F. ic Hall <� Q Bonus Room *'2Y6' 2'oYz' a Hcw x. OVER UNHEATED INSULATE FLOOR Open to Below Bedroom 3 SPACE in w_ 3-0 4-0 F M Floor Below I - -_______ Il� , 116111:121L - ICY B3a 3-0'0 5H 3-0 5-0 F 3-0-0 SH B3b ' RoofJBelow ,a 3-0 0 SH-3-0'0 SH B4b ' 6'-9 " 3-5Yi 3-5}1" 6'-936" 4•-5Y4 4'-5Y4 3'-73/{ 3•-5Y2 5'-3" R • 20'-5}4" 'II B'-10 " I! 12'-4Y4 3'-44 LJ Ili mu Plan 1 9A UPPER FLOOR PLAN 1/4"=1•-0" e 21-11Y6• ee 2 ' 6-8' _ 6' I lo Patio ii-5)• ]C� 1 I -.. -�._6ti. I 1 ♦ 5.-6• 5_0,5 ►I 6'-3 ♦ :. /22 12-OY4 A i B-BY4 r ' t .6a 4-o ei-o SH i3521 'm .. Kw B7a 4-o D SH i i , 87b 6-0 S r 12 - Iii OVENS -T DW Ill ` -1 0 a lo T 00 B5Den 7 A a ook Kitchen to SOFFIT P:' w1+ wH - Q Dowry it, Shop r r�r i 1 BOLLARD ©%Ir• / 2-6 HCW 1 �IIIP/W7 I 3-0 HCW - 'L' 71.-_:-= -_ - S, e - ME ,,,,,�:,, SOFFIT DOWN L__—-- - _- _— -4 r-- L J. S&P ♦ A ' 3'-1' n r ♦ Powders n 0 2'-9y 10'-0' 4'ZY4 3-4' .®,, 1 2-6 NTL WOOD TREAD INSUL 4,----.11 MAX RISER 8' a n (ADD STEPS REOD BY GRADE) tt CLOSET 6-DBIFOLD II Dining Room 3-Car Garage — � n WALL FINISH: Vi'GWB Pant ,Di 4 4b CEILING FINISH •TYPE T OWB FIRE-TAPE ALL GWB N.� 5 SHELVES _n WRAP BEAMS BELOW CEILING LEVEL _��•o INSULATE FLOOR ABOVE ���� I e nIhIIhIJii :5'co - GUARD RAIL W/6"HIGH m a Q FURNACE TO BE SIZED -` >i 2z4 CURB AT BOTTOM- PER ORSC L11305.1.1 I 2._4 °C°, TOP AT+42'ABV.NOSING - PLATFORM®+16• 2'-3 Y2" 'ai LL o ABOVE ADJACENT ol•I ,^ oI. GARAGE SLAB GI tt• o___-• i1 1i S&P "' UL APPROVED DIRECT-VENT •1 0__ o . 11 11 FIREPLACE,INSTALL PER MFR. - 127 89 11'1, e ¢ Great Room D q ,1,-.:, AS 12"TILE SURROUND W/ 11 J ~APPLICABLE Entry 2*TRIM FRAME—. N� PEP SITE ,i' I0=_J CONDITIONS < 14 0 p n ♦ e 1-0 X5-0-FI 1-0 5-0 F �' o 16-0 8-0 SOHDh' c�"'� I- Ie I B10 1 ch r-B111 I I I I I , I { I Po ch I I Floor Above I :� I I Floor�bove i .� ♦ 4•tw�A �g •�—❑ 1 ID I I - I I 1 _ a-o -O SH 3-015--0-F 3-015-0 1-1'.3-0 5.0 9.11-- H - - ♦ - 10'-23/4 i1� } I0'-234- yy 1'-11)12'-53i*.. 2'-5 -I7'-11Y4 1 5-13/4 3'-* 1 3'-5 - 1 .3'-5)"� I 5-134 c 2O'-5) r - 1 l 1 1 20•_6• J } ; >.L III '_1_- Q ---h'-'-f- . J 20 ' 20•_7Y2• 6•_6ti• DS 20._70. , } 50'-0• } Plan 19A LOWER FLOOR PLAN 1/4"=1'-a" SHEET TITLE: LATERAL N-Sfront to back-up/down) ( P ) CT PROJECT#: CT#14301:Plan 5019 ABD Diaph.Level: Roof Panel Height= 9 ft. Seismic V i= 6.02 kips Design Wind N-S V i= 10.91 kips Max.aspect= 3.5 SDPWS Table 4.3.4 Sum Seismic V i= 6.02 kips Sum Wind N-S V i= 10.91 kips Min.Lwall= 2.57 ft. per SDPWS-2008 (0.6-0.14Sds)D+0.7 p Qe 0.6D+W pt= 1.00 Table 4.3.3.5 Wind Wind E.Q. E.Q. p= 1.00 E.Q. E.Q. Wind Wind E.Q. E.Q. E.Q. E.Q. Wind Wind Wind Wind Max. Wall ID T.A. Lwall LDL eff. C 0 w dl V level V abv. V level V abv. 2w/h v i Type Type v i OTM ROTM Unet U.,m OTM ROTM Unet Usum Usum (sqft) (ft) (ft) (kit) (kip) (kip) (kip) (kip) p (pIf) (plf) (kip-ft) (kip-ft) (kip) (kip) (kip-ft) (kip-ft) (kip) (kip) (kip) Ext Al 648 17.0 18.5 1.00 0.15 2.95 0.00 1.62 0.00 1.00 1.00 96 P6TN P6 173 14.62 11.68 0.18 0.18 26.52 14.15 0.76 0.76 0.76 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext A2 552 14.5 15.8 1.00 0.15 2.51 0.00 1.38 0.00 1.00 1.00 95 P6TN P6 173 12.45 8.48 0.29 0.29 22.59 10.28 0.89 0.89 0.89 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext A3 465 15.5 18.0 1.00 0.15 2.11 0.00 1.17 0.00 1.00 1.00 75 P6TN P6TN 136 10.49 10.36 0.01 0.01 19.03 12.56 0.44 0.44 0.44 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext A4 375 12.5 16.5 1.00 0.15 1.71 0.00 0.94 0.00 1.00 1.00 75 P6TN P6TN 136 8.46 7.66 0.07 0.07 15.35 9.28 0.51 0.51 0.51 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext A5 360 12.0 13.5 1.00 0.15 1.64 0.00 0.90 0.00 1.00 1.00 75 P6TN P6TN 136 8.12 6.01 0.19 0.19 14.73 7.29 0.66 0.66 0.66 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0--- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 r 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 , 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - 0 0.0 0:0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0' 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2400 71.5 71.5=L eff. 10.91 0.00 6.02 0.00 EVH,,nd 10.91 EV00 6.02 Notes: denotes with shear transfer " denotes perferated shear wall iSB denotes iSB Shear Panel SHEET TITLE: LATERAL N-S(front to back-up/down) CT PROJECT#: CT#14301:Plan 5019 ABD Diaph.Level: 2nd Panel Height= 10 ft. Seismic V i= 4.03 kips Design Wind N-S V i= 6.42 kips Max.aspect= 3.5 SDPWS Table 4.3.4 Sum Seismic V i= 10.05 kips Sum Wind N-S V i= 17.33 kips Min.Lwall= 2.86 ft. (0.6-0.14Sds)D+0.7 p Qe 0.6D+W per SDPWS-2008 p c= 1.00 Table4.3.3.5 Wind Wind E.Q. E.Q. p= 1.00 E.Q. E.Q. Wind Wind E.Q. E.Q. E.Q. E.Q. Wind Wind Wind Wind Max. Wall ID T.A. Lwall LDL eff. C 0 w dl V level V abv. V level V abv. 2w/h v i Type Type v i OTM RorM Unet Ue,,,n OTM RoTM Unet Unum Usum (sgft) (ft) (ft) (klf) (kip) (kip) (kip) (kip) p (pIf) (plf) (kip-ft) (kip-ft) (kip) (kip) (kip-ft) (kip-ft) (kip) (kip) (kip) Ext A6 742 34.0 35.5'` 1.00 0.25 1.98 5.45 1.25 3.01 1.00 1.00 125 P6TN P6 219 42.56 74.68 -0.96 -0.96 74.34 90.53 -0.49 -0.49 -0.49 0 s; 0.0 0.0 1,00 0,00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Int A7 462 19.5 19.5 1.00 0.25 1.24 0.00 0.78 0.00 1.00 1.00 40 P6TN P6TN 63 7.76 23.53 -0.84 -0.84 12.36 28.52 -0.86 -0.86 -0.84 - 0 0.0 0.0 1,00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Int A8 190 8.0 9.3 1.00 ,0.25' 0.51 0.00 0.32 0.00 1.00 1.00 40 P6TN P6TN 64 3.19 4.58 -0.19 -0.19 5.08 5.55 -0.06 -0.06 -0.06 0 : 0.0 '0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Int A9 166 7.0 7.0 1.00 0.25' 0.44 0.00 0.28 0.00 1.00 1.00 40 P6TN P6TN 63 2.79 3.03 -0.04 -0.04 4.44 3.68 0.12 0.12 0.12 - - 0 0.0 0,0 1.00 0.00' 0.00 0.00 0.00 0.00 1.00 0.00 0 -- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext A10a* 203 5.5 10.8 1.00 0.25 0.54 1.32 0.34 0.73 1.00 1.00 195 P6 P6 339 10.71 3.66 1.46 1.46 18.63 4.43 2.94 2.94 2,94 0 0,0 0.0 1,00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext. Al Ob* 637 17.3 20.5; 1.00 "0.25 1.70 4.14 1.07 2.28 1.00 1.00 194 P6 P6 339 33.50 21.88 0.70 0.70 58.43 26.52 1.92 1.92 4.92 - 0 0.0 0.0` 1.00 ,0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 1.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0,0 0.0 1.00 0,00 0.00 0.00 0,00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 1.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0` 0.0' 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 J' 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - 0 0.0 0.0 1,00 0.00- 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0,0 0:0 1.00 "0.00' 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 - -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - 0 0.0 0,0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1,00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 >_'0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 -- -- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2400 91.3 91.3=L eff. 6.42 10.91 4.03 6.02 1.00 EV.,,d 17.33 EVEQ 10.05 Notes: * denotes with shear transfer ** denotes perferated shear wall iSB denotes iSB Shear Panel JOB#: CT# 14301: Plan 5019'ABD SHEARWALL WITH FORCE TRANSFER ID: A10ab w dl= 250 plf V eq 4420.0 pounds V1 eq = 1068.6 pounds V3 eq = 3351.4 pounds V w= 7700.0 pounds V1 w= 1861.5 pounds V3 w= 5838.5 pounds ► ► v hdr eq= 151.1 plf --. A H head = A v hdr w= 263.2 Of 1 A Fdrag1 eq= 237 F2 eq= 745 Fdrag1 w= - 4 F2 -- 1297 H pier= vi eq= 194.3 plf v3 eq= 194.3 plf P6 E.Q. 5.0 v1 w= 338.5 plf v3 w= 338.5 plf P6 WIND feet H total = 2w/h = 1 2w/h = 1 10 Fdrag3 eq= . F4 e•-• 745 feet • Fdrag3 w= 414 F4 w= 1297 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 151.1 plf P6 4.0 EQ Wind v sill w= 263.2 plf P6 feet OTM 44200 77000 R OTM 52529 64167 • v UPLIFT -291 449 Up above 0 0 UP sum -291 449 H/L Ratios: L1= 5.5 L2= 6.5 L3= 17.3 Htotal/L= 0.34 ► -4 ►4 ► Hpier/L1= 0.91 ► Hpier/L3= 0.29 L total = 29.3 feet SHEET TITLE: LATERAL E-W'(side to side-left/right) CT PROJECT#: CT#14301:Plan 5019 ABD Diaph.Level: Roof Panel Height=s 9 ft. Seismic V i= 6.02 kips Design Wind E-W V i= 9.91 kips Max.aspect="` 3.5 SDPWS Table 4.3.4 Sum Seismic V i= 6.02 kips Sum Wind E-W V i= 9.91 kips Min.Lwall= 2.57 ft. (0.6-0.14Sds)D+0.7 p Qe 0.6D+W per SDPWS-2008 pI,= 1.00 Table 4.3.3.5 Wind Wind E.Q. E.Q. p= 1.00 E.Q. E.Q. Wind Wind E.Q. E.Q. E.Q. E.Q. Wind Wind Wind Wind Max. Wall ID T.A. Lwall LDL eff. C 0 w di V level V abv.V level V abv. 2w/h v i Type Type v i OTM RorM Unet Ueum OTM ROTM Unet Ueum Usum (sqft) (ft) (ft) (klf) (kip) (kip) (kip) (kip) p (plf) (plf) (kip-ft) (kip-ft) (kip) (kip) (kip-ft) (kip-ft) (kip) (kip) (kip) Ext B1a` 300 3.0 6.0 1.00 0.15 1.24 0.00 0.75 0.00 1.00 1.00 251 P4 P4 413 6.77 0.67 2.61 2.61 11.15 0.81 4.43 4.43 4,43 - 0 0.0 0.0 1.00 -0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B1 b* 250 2.5 5.5 1.00 rr0.15 1.03 0.00 0.63 0.00 1.00 1.00 251 P4 P4 413 5.64 0.51 2.80 2.80 9.29 0.62 4.73 4.73 4.73 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B2a* 350 3.5 10.8 1:00 0.15 1.45 0.00 0.88 0.00 1.00 1.00 251 P4 P4 413 7.90 1.40 2.29 2.29 13.01 1.69 3.99 3.99 3.98 - - 0 0.0 0.0 1.00 'JJ10,00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B2b* 300 3.0 10.3 1.00 0.15 1.24 0.00 0.75 0.00 1.00 1.00 251 P4 P4 413 6.77 1.14 2.41 2.41 11.15 1.38 4.19 4.19 4.48 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B3a* 300 2.5 7.5 1.00 0.15 1.24 0.00 0.75 0.00 1.00 1.00 301 P4 P4 496 6.77 0.70 3.31 3.31 11.15 0.84 5.62 5.62 6,62 - - 0 0.0 0.0 1.00 0,00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B3b* "300 2.5 7.5 1.00 "0:15 1.24 0.00 0.75 0.00 1.00 1.00 301 P4 P4 496 6.77 0.70 3.31 3.31 11.15 0.84 5.62 5.62 6.62 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B4a* 300 4.7 7.9 1.00 0.15 1.24 0.00 0.75 0.00 1.00 1.00 161 P6 P6 265 6.77 1.37 1.35 1.35 11.15 1.66 2.37 2.37 247 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B4b* 300 4.7 7.9 1.00 0,15 1.24 0.00 0.75 0.00 1.00 1.00 161 P6 P6 265 6.77 1.37 1.35 1.35 11.15 1.66 2.37 2.37 2.37 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 ': 0.0 0.0 1.00 '0.00 0.00 0.00 0.00 0.00 1.00 0.00 0--- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1:00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 °0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 00 1.00 0:00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - -' 0 0.0 = 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2400 26.3 26.3=L eff. 9.91 0.00 6,02 0.00 EV wind 9.91 EVEQ 6.02 Notes: * denotes with shear transfer ** denotes perferated shear wall iSB denotes iSB Shear Panel PORTAL FRAME DESIGN (MIN.WIDTH =22 112'°): EQ = 350#< EQ (ALLOW)= 1031# SHEET TITLE: LATERAL E-W(side to side-left/right) CTPROJECT#: CT#14301:Plan 5019 ABD WIND =580#<WIND (ALLOW)= 1444# Diaph.Level: 2nd Panel Height= 10 ft. Seismic V i= 4.03 kips Design rind E-W V i= 6.4- .'• Max.aspect= 3.5 SDPWS Table 4.3.4 Sum Seismic V i= 10.05 kips S Wind E-W V i= 16.36 kips Min.Lwall= 2.86 ft. (0.6-0.14Sds)D+0.7 p Qe 0.6D+W per SDPWS-2008 pt,= .00 Table 4.3.3.5 Wind Wind E.Q. E.Q. .= 1.00 E.Q. E.Q. Wind Wind E.Q. E.Q. E.Q. E.Q. Wind Wind Wind Wind Max. Wall ID T.A. Lwall LDL eff. C 0 w dl V level V abv. V level V ab .' 2w/h v i Type Type v i OTM ROTM Unet US„m OTM ROTM U„et Us,,,„ Uwe (sqft) (ft) (ft) (kif) (kip) (kip) (kip) ip) p (plf) (plf) (kip-ft) (kip-ft) (kip) (kip) (kip-ft) (kip-ft) (kip) (kip) (kip) Ext B5 507 11.5 11.5 1.00 0.25 1.36 2.27 +.85 1.38 1.00 1.00 194 P6 P6 316 22.31 8.18 1.30 2.00 36.32 9.92 2.44 3.78 3.78 0 0.0 0.0 1.00 0.00 0.00 0.1 t 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B6a* 154 3.5 5.5 1.00 0.25 0.41 %.60 0.26 0.36 1.00 1.00 177 P6 PS 290 6.19 1.19 1.76 1.76 10.14 1.44 3.07 3.07 3,07 - 0 0.0'` 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B613* 198 4.5 10.5 1.00 0.25 • 3 0.77 0.33 0.47 1.00 1.00 178 P6 PS 289 8.02 2.92 1.33 1.33 13.02 3.54 2.47 2.47 2,47 - 0 0.0 0.0 1.00 0.01 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B7a* 154 3.5 13.0 1.00 • 5 0.41 0.60 0.26 0.36 1.00 1.00 177 P6 P6 290 6.19 2.82 1.19 1.19 10.14 3.41 2.37 2.37 2,37 - - 0 ' 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0- - 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B713* 187 4.3 9.8 1 s1 ` 0.25 0.50 0.72 0.31 0.44 1.00 1.00 177 P6 P6 288 7.54 2.56 1.39 1.39 12.22 3.11 2.54 2.54 2,64 -` 0 0.0 0.0 1.00 0.00" 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 I 1 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.1 0:0 1.00 S 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 * • •:. 1- .- • ' 1.00 1.00 376 P3 P3 614 30.09 3.96 3.56 3.56 49.14 4.80 5.85 5.85 5.85 - - 0 0.0 0.0 1.10 0.00 1.00 0.00 0.00 1.00 .00 0.00 0--- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 ABWP B10 84 2.0 2.0 1.00 0.25 0.23 0.35 0.14 0.21 +.00 0.40 439 P3 P6 288 3.51 0.25 2.45 2.45 5.76 0.30 3.75 3.75 3.75 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 .00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 ABWP B11 84 2.0 2.0 1.00 0.25 0.23 0.35 0.14 0.21 .00 0.40 439 P3 P6 288 3.51 0.25 2.45 2.45 5.76 0.30 3.75 3.75 3.75 - - I 0.0 1.0 1.01 1.00 0 00 0.10 0.01 1 00 .00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 fi = 1 ;.00 0.' .. 1.00 0.70 251 P4 P6 283 6.15 0.76 1.90 1.90 9.92 0.92 3.18 3.18 3.18 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 Ext B13 166 4.0 4.0 1.00 0.25 0.45 0.67 0.28 0.42 1.00 0.80 218 P6 P6 279 6.99 0.99 1.80 1.80 11.16 1.20 2.99 2.99 2.99 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 `1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0--- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - - 0 0.0 0.0 1.00' 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 - 0 0.0 0.0 1.00 0.00 0.00 0.00 0.00 0.00 1.00 0.00 0 --- --- 0 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 2400 46.8 46.8=L eff. 6.45 9.91 4.03 6.02 EVwind 16.36 EVEQ 10.05 Notes: * denotes with shear transfer ABWP Alternate Braced Wall Panel-2308.9.3.2 ** denotes perferated shear wall iSB denotes iSB Shear Panel JOB#: CT#14301: Plan 5019 ABD SHEARWALL WITH FORCE TRANSFER ID: Blab w dl= 150 plf V eq 1380.0 pounds V1 eq = 752.7 pounds V3 eq = 627.3 pounds V w= ` 2270.0 pounds V1 w= 1238.2 pounds V3 w= 1031.8 pounds ► v hdr eq= 120.0 plf ► A H head = A v hdr w= 197.4 plf 1 V Fdrag1 eq= 393 F2 eq= 327 • Fdrag1 w= :.6 F2 ,- 538 H pier= v1 eq= 250.9 plf v3 eq= 250.9 plf P4 E.Q. 5.0 vi w= 412.7 plf v3 w= 412.7 plf P4 WIND feet H total = 2w/h = 1 2w/h = 1 9 1 Fdrag3 eq= s F4 e.- 327 feet • Fdrag3 w= 646 F4 w= 538 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 120.0 Of P6TN 3.0 EQ Wind v sill w= 197.4 plf P6 feet OTM 12420 20430 R OTM 4872 5951 * ir UPLIFT 697 1337 Up above 0 0 IUP sum 697 1337 H/L Ratios: L1= 3.0 L2= 6.0 L3= 2.5 Htotal/L= 0.78 4 10. A 1,4 ► Hpier/L1= 1.67 Hpier/L3= 2.00 L total = 11.5 feet JOB#: CT# 14301: Plan 5019 ABD SHEARWALL WITH FORCE TRANSFER ID: B2ab w dl= 150 plf V eq 1630.0 pounds V1 eq = 877.7 pounds V3 eq = 752.3 pounds V w= 2690.0 pounds V1 w= 1448.5 pounds V3 w= 1241.5 pounds ► ► v hdr eq= 77.6 plf ► A H head= A v hdr w= 128.1 plf 1 V Fdragl eq= 606 F2 eq= 519 • Fdragl w= '00 F2 -- 857 H pier= vi eq= 250.8 plf v3 eq= 250.8 plf P4 E.Q. 5.0 vi w= 413.8 plf v3 w= 413.8 plf P4 WIND feet H total = 2w/h = 1 2w/h = 1 9 • Fdrag3 eq= .t. F4 e.- 519 feet A Fdrag3 w= 1000 F4 w= 857 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 77.6 p/f P6TN 3.0 EQ Wind v sill w= 128.1 plf P6TN feet OTM 14670 24210 R OTM 16246 19845 v v UPLIFT -77 215 Up above 0 0 UP sum -77 215 H/L Ratios: L1= 3.5 L2= 14.5 L3= 3.0 Htotal/L= 0.43 , ►A ► Hpier/L1= 1.43 Hpier/L3= 1.67 L total = 21.0 feet JOB#: CT# 14301: Plan 5019 ABD SHEARWALL WITH FORCE TRANSFER ID: B3ab w dl= 150 plf V eq 1500.0 pounds V1 eq = 750.0 pounds V3 eq = 750.0 pounds V w= 2480.0 pounds V1 w= 1240.0 pounds V3 w= 1240.0 pounds ► ► v hdr eq= 100.0 plf ► A H head = A v hdr w= 165.3 p/f 1 V Fdrag1 eq= 500 F2 eq= 500 A Fdrag1 w= ;.7 F2 ,- 827 H pier= v1 eq= 300.0 plf v3 eq= 300.0 plf P4 E.Q. 5.0 v1 w= 496.0 plf v3 w= 496.0 plf P4 WIND feet H total = 2w/h = 1 2w/h = 1 9 • Fdrag3 eq= s S F4 e•- 500 feet A Fdrag3 w= 827 F4 w= 827 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 100.0 p/f P6TN 3.0 EQ Wind v sill w= 165.3 plf P6 feet OTM 13500 22320 R OTM 8289 10125 v r UPLIFT 364 851 Up above 0 0 UP sum 364 851 H/L Ratios: L1= 2.5 L2= 10.0 L3= 2.5 Htotal/L = 0.60 41 ir. 41 1.1 ► Hpier/L1= 2.00 Hpier/L3= 2.00 L total = 15.0 feet JOB#: CT# 14301: Plan 5019 ABD SHEARWALL WITH FORCE TRANSFER ID: B4ab w dl= 150 plf V eq 1500.0 pounds V1 eq = 750.0 pounds V3 eq = 750.0 pounds V w= 2480.0 pounds V1 w= 1240.0 pounds V3 w= 1240.0 pounds ► ► v hdr eq= 94.7 plf ---00- A ►A H head= A v hdr w= 156.6 plf 1 V Fdragl eq= 308 F2 eq= 308 A Fdragl w= s 9 F2 .- 509 H pier= v1 eq= 160.6 plf v3 eq= 160.6 plf P6 E.Q. 5.0 v1 w= 265.5 plf v3 w= 265.5 plf P6 WIND feet H total = 2w/h = 1 2w/h = 1 9 v Fdrag3 eq= e: F4 e.- 308 feet • Fdrag3 w= 509 F4 w= 509 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 94.7 plf P6TN 3.0 EQ Wind v sill w= 156.6 plf P6 feet OTM 13500 22320 R OTM 9243 11291 IP • UPLIFT 281 727 Up above 0 0 UP sum 281 727 H/L Ratios: L1= 4.7 L2= 6.5 L3= 4.7 Htotal/L= 0.57 10 4 Hpier/L1= 1.07 , ►A IP. Hpier/L3= 1.07 L total = 15.8 feet JOB#: CT#14301: Plan 5019 ABD SHEARWALL WITH FORCE TRANSFER ID: B6ab w dl= 250 plf V eq 1200.0 pounds V1 eq = 430.8 pounds V3 eq = 769.2 pounds V w= 1940.0 pounds V1 w= 696.4 pounds V3 w= 1243.6 pounds v hdr eq= 87.3 plf A H head = A v hdr w= 141.1 plf 1 v Fdrag1 eq= 125 F2 eq= 224 A Fdrag1 w= '3 F2 362 H pier= v1 eq= 123.1 plf v3 eq= 123.1 plf P6TN E.Q. 6.0 v1 w= 199.0 plf v3 w= 199.0 plf P6 WIND feet H total = 2w/h = 1 2w/h = 1 10 _ Fdrag3 eq= F4 e.- 224 feet A Fdrag3 w= 203 F4 w= 362 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 87.3 plf P6TN 3.0 EQ Wind v sill w= 141.1 plf P6TN feet OTM 12000 19400 R OTM 11608 14180 • UPLIFT 30 399 Up above 0 0 UP sum 30 399 H/L Ratios: Ll= 3.5 L2= 4.0 L3= 6.3 Htotal/L= 0.73 , 0 41 0.41 0. Hpier/L1= 1.71 0 Hpier/L3= 0.96 L total = 13.8 feet JOB#: CT# 14301: Plan 5019 ABD SHEARWALL WITH FORCE TRANSFER ID: B7ab w dl= 250 plf V eq 1800.0 pounds V1 eq = 854.2 pounds V3 eq = 945.8 pounds V w= 2940.0 pounds V1 w= 1395.3 pounds V3 w= 1544.7 pounds ► v hdr eq= 96.0 plf - ► H head= A v hdr w= 156.8 plf 1 ` Y Fdrag1 eq= 182 F2 eq= 202 Fdrag1 w= '8 F2 ,- 330 H pier= vi eq= 122.0 plf v3 eq= 122.0 plf P6TN E.Q. 4.0 v1 w= 199.3 plf v3 w= 199.3 plf P6 WIND feet H total= 2w/h = 1 2w/h = 1 10 • Fdrag3 eq= . F4 e.- 202 feet A Fdrag3 w= 298 F4 w= 330 2w/h = 1 H sill = (0.6-0.14Sds) D 0.6D v sill eq= 96.0 plf P6TN 5.0 EQ Wind v sill w= 156.8 plf P6 feet OTM 18000 29400 R OTM 21585 26367 f • UPLIFT -198 168 Up above 0 0 UP sum -198 168 H/L Ratios: L1= 7.0 L2= 4.0 L3= 7.8 Htotal/L= 0.53 ► 4 ►/ ► Hpier/L1= 0.57 woo owHpier/L3= 0.52 L total = 18.8 feet APA M TT-1O0F APRIL 2014 • A Portal Frame with Hold Downs . _ for pp Engineered A lications The APA portal-frame design,as shown in Figure 1,was envisioned primarily for use as bracing in conventional light- frame construction.However,it can also be used in engineered applications,as described in this technical topic.The portal frame is not actually a narrow shear wall because it transfers shear by means of a semi-rigid,moment-resisting frame.The extended header is integral in the function of the portal frame,thus,the effective frame width is more than just the wall segment,but includes the header length that extends beyond the wall segment.For this shear transfer mechanism,the wall aspect ratio requirements of the code do not apply to the wall segment of the APA portal frame. Cyclic testing has been conducted on the APA portal-frame design(APA 2012).Recommended design values for engi- neered use of the portal frames are provided in Table 1.Design values are derived from the cyclic test data using a rational procedure that considers both strength and stiffness. The Table 1 values in this report were developed using the CUREE cyclic test protocol(ASTM E2126),using a flexible load head.Earlier testing was conducted using rigid load heads and the sequential phased displacement(SPD)method, as outlined in SEAOSC(1997)Standard Method of Cyclic(Reversed)Test for Shear Resistance of Framed Walls for Buildings. The design values in Table 1 ensure that the code(IBC)drift limit and an adequate safety factor are maintained.For seismic design,APA recommends using the design coefficients and factors for light-frame(wood)walls sheathed with wood structural panels rated for shear resistance(Item 15 of Table 12.2-1 of ASCE 7-10). See APA Report T2004-59 for more details.For designs where deflection may be less of a design consideration,for example,wind loading while the portal frames are used in tandem with each other,and not used as conventional shear walls,a load factor of 2.5, based on the cyclic test results is used. Since cyclic testing was conducted with the portal frame attached to a rigid test frame using embedded strap-type hold downs, design values provided in Table 1 of this document should be limited to portal frames constructed on similar rigid-base foundations,such as a concrete foundation,stem wall or slab,and using a similar embedded strap- type hold down. 1 ®2014 APA—The Engineered Wood Association 1 PORTAL FRAME DESIGN (MIN. WIDTH = EQ=350#< EQ (ALLOW)= 1031# . WIND =580#<WIND (ALLOW)= 1444# Table 1. Recommended Allowable Des";.n Valu•. for APA Portal Frame Used on a Rigid-Base Minimum Width Maximum eight Allowable Design(ASD)Values per Frame Segment (in.) Sheart••'t(lbf) Deflection(in.) Load Factor 8 850 (1190 WIND) 0.33 3.09 16 10 625 (875 WIND) 0.44 2.97 8 1,675 (2345 WIND) 0.38 2.88 0 ,12 (1575 WI D _ 0.51 3.42 1'-10 1/2" 8 1520 EQ(2128 WIND) :1'-10.1/2" . 10 1931 EQ(1444 WIND) nsa or to t o S•'srsi Ls•d•nab (a) Design values are based on the use of Douglas-fir or Southern pine framing.For other species of framing,multiply the above shear design value by the specific gravity adjustment factor=(1-(0.5-SG)),where SG=specific gravity of the actual framing.This adjustment shall not be greater than 1.0. (b) For construction as shown in Figure 1. (c) Values are for a single portal-frame segment(one vertical leg and a portion of the header).For multiple portal-frame segments,the allowable shear design values are permitted to be multiplied by the number of frame segments(e.g.,two=2x,three=3x,etc.). (d) Interpolation of design values for heights between 8 and 10 feet,and for portal widths between 16 and 24 inches,is permitted. (e) The allowable shear design value is permitted to be multiplied by a factor of 1.4 for wind design. (f) If story drift is not a design consideration,the tabulated design shear values are permitted to be multiplied by a factor of 1.15.This factor is permitted to be used cumulatively with the wind-design adjustment factor in Footnote(e)above. Figure 1. Construction Details for APA Portal-Frame Design with Hold Downs • Extent of header with double portal frames(two braced wall panels) • Extent of header with single portal frame (one braced wall panels) Header to jack-stud strap 2'to 18'rough width of opening - per wind design min 1000 lbf for single or double portal on both sides of opening tJ opposite side of sheathing Pony ;;I:-.',"::. 1 7 wall • height • r"..;V...,, 4.'str Nom:.. _ z • •: # Fasten top plate to header with two rows of 16d fr: ` • sinker nails at 3"o.c.typ Fasten sheathing to header with 8d common or iMin.3/8"wood structural 12z galvanized box nails at 3"grid pattern as shown /panel sheathing mtotalHeader to jack-stud strap per wind design. a wall •iMin 1000 lbf on both sides of opening opposite !. height .4 41 side of sheathing. If needed,panel splice edges 10' •i. shall occur over and be , .Min.double 2x4 framing covered with min 3/8" nailed to common blocking max " thick wood structural panel sheathing with ;- within middle 24"of portal height • r,• 8d common or galvanized box nails at 3"o.c. • height.One row of 3"o.c. in all framing(studs,blocking,and sills)typ- nailing is required in each panel edge. r i„, Min length of panel per table 1 Typical portal frame�` construction Min(2)3500 lb strap-type hold-downs (embedded into concrete and nailed into framing) � Min double 2x4 post(king and jack stud).Number of yili —Min reinforcing of foundation,one#4 bar lig 1 jack studs per IRC tables top and bottom of footing.Lap bars 15”min. P.502.5(1)&(2). im, e Min footing size under opening is 12"x 12".A turned-down Min 1000 lb hold-down slab shall be permitted at door openings- device(embedded into Min(1)5/8"diameter anchor bolt installed per IRC R403.1.6- concrete and nailed with 2"x 2"x 3/16"plate washer into framing) 2 102014 APA-The Engineered Wood Association References APA, 2004, Confirmation of Seismic Design Coefficients for the.APA.Portal Frame, APA Report T2004-59, APA—The Engineered Wood Association,Tacoma,WA. APA,2012,Effect of Hold-Down Capacity on IRC Bracing Method PFH and IBC Alternate Method,APA Report T2012L-24, APA—The Engineered Wood Association,Tacoma,WA. ASCE,2010,Miniimun Design Load for Buildings and Other Structures.ASCE 7.American Society of Civil Engineers. Reston,VA. ASTM E2126-11,Standard Test Methods for Cyclic(Reversed)Load Test for Shear Resistance of Vertical Elements of the Lateral Force Resisting Systems for Buildings,ASTM International.West Conshohocken,PA. SEAOSC, 1997,Standard Method of Cyclic (Reversed)Test for Shear Resistance of Framed Walls for Buildings, Structural Engineers Association of Southern California.Whittier,CA. • • We have field representatives in many major U.S.cities and in Canada who can help answer questions involving APA trademarked products.For additional assistance in specifying engineered wood products,contact us: APA HEADQUARTERS:7011 So.19th St.•Tacoma,Washington 98466•(253)565-6600•Fax:(253)565-7265 APA PRODUCT SUPPORT HELP DESK:(253)620-7400•E-mail:help@apawood.org Form No.1T-100F Revised April 2014 DISCLAIMER:The information contained herein is based on.APA—The Engineered Wood Association's continuing programs of laboratory testing,product research,and comprehensive field experience.Neither APA nor its members snake any warranty, expressed or implied, or assume any legal liability or responsibility for the use, application �� of,and/or reference to opinions,findings,conclusions, or recommendations included in this publication. Consult your local jurisdiction or design professional to assure compliance with code, construction, and performance requirements.Because APA has no control over quality of workmanship or the conditions under which engineered wood products are used,it cannot accept responsibility of product performance or designs as actually constructed. 3 Co 2014 APA—The Engineered Wood Association 180 Nickerson St. CT ENGINEERING Suite 302 D S2 6)2 5 4 Project: (�" --- Date: ftS/��. i , X8109 (206)285-4512 �e= 23 w �? 3 2 ( ( 5 G 2�1�4 �a 2 PAX: Client: . 1 r . Page Number: (206)285-0618 tV-10 CV • • QQ,� G1 -7 A\,50 / X C6`` )2" Xo2�( 7"012- (0-r)-t) ?),577Dim r-2) PD5)7nw- o -T'b A 4 frit (zY0,2 _ �> SQ��;� _ (0(0:6i60) 0,312 _ ,5ig \ � : (1)(,710a� � n . (_240,1) (60)( � �- h J z p�� tel ) --- 5` ' I Com , /(2 ot= 6--eptu, 72) /2,,titz L0/4-4--)-14 A c),‘, t� �xL(� ep�Vl S c�= 0,5o . rte, MD.-- rw A. V,‘ Structural Engineers j WOOD FRAME CONSTRUCTION MANUAL 63 i . Table 2.2A Uplift Connection Loads from Wind )'�`' , (For Roof-to-Wall,Wall-to-Wall,and Wall-to-Foundation) • 700-yr.Wind Speed 110 115 120 3.30 140 150 160 170 180 195 3-second gust(mph) - , Roof/Ceiling Assembly Roof Span(ft) Unit Connection Loads(0)1'2'3'4'5'6,7 Design Dead Load - 12. 118 128 140 164 190 219 249 281 315 369 m 24 195 213 232 '272 315 362 412 465 521 612 0 0 psf6 36 272 298 324 380 441 506 576 650 729 856 2 tit 48 350 383 417 489 567 651 741 836 938 1.100 rri . 60 428 468 509 598 693 796 906 1022 1146 1345 v • 12 70 80 92 116 142 171 201 233 267 321 24 111 129 148 188 231. 278 328 381 437 528 CO 10 psf 36 152 178 204 260 321 386 456 530 609 736 48 194 227 261 333 411 495 585 680 782 944 Z 60 236 276 317 406 501 604 714 830 954 1153 12, 46 56 68 92 118 147 177 209 243 297 24 69 87 106 146 189 236 286 339 395 486 15 psf 36 92. 118 144 200 261 326 396 470 549 676 48 116 149 183 255 333 417 507 602 704 866 60 140 180 221 310 405 508 618 734 858 1057' 12 22 32 44 68 94 123 153 185 219 273 • 24 27 45 64 104 147 194 244 297 353 444 • 20 psf 36 32 58 84 140 201 266 336 410 489 616 `1A,,, 48 38 71 105 177 255 339 429 524 626 788 • 60 44 84 125 214 309 412 522 638 762 961 12 - 8 20 44 70 99 129 161 195 249 • 24 - 3 22 62 - 105 152 202 255 311 402 25 psf 36 - - 24 80 141 206 276 350 429 556 48 - - 27 99 177 261 351 446 548 710 • 60 - - 29 118 213 316 426 542 666 865 1 Tabulated unit uplift connection loads shall be permitted to be multiplied by 0.75 for framing not located within 6 feet of corners for buildings less than 30 feet in width(W),or W/5 for buildings greater than 30 feet In width. 2 Tabulated uplift loads assume a building located in Exposure B with a mean roof height of 33 feet. For buildings located in other exposures,the tabulated values for 0 psf roof dead load shall be multiplied by the appropriate adjustment factor in Section 2.1.3.1 then reduced by the appropriate design dead load. 3 Tabulated uplift loads are specified in pounds per linear foot of wall. To determine connection requirements, f multiply the tabulated unit uplift load by the multiplier from the table below corresponding to the spacing of the . connectors: . Connection Spacing(in.) I 12 1619.2 24 48 Multiplier 1.00 1.33 ( 1.60 I 2.00 4.00 !.. • 4 Tabulated uplift loads equal total uplift minus 0.6 of the roof/ceiling assembly design dead load. s Tabulated uplift loads are specified for roof-to-wall connections. When calculating uplift loads for wall-to-wallor t wall-to-foundation connections,tabulated uplift values shall be permitted to be reduced by 73 plf(0.60 x 121 plf) for each full wall above. i 'i;-�;1. 6 When calculating uplift loads for ends of headers/girders,multiply the tabulated unit uplift load by 1/2 of the ,.IT: .. header/girder span(ft.). Cripple studs need only be attached per typical uplift requirements. 'vi' i ' For jack rafter uplift connections,use a roof span equal to twice the Jack rafter length.The jack rafter length 11'y° includes the overhang length and the jack span. t s Tabulated uplift loads for 0 psf design dead load are included for Interpolation or use with actual roof dead loads. is •x AMERICAN WOOD COUNCIL 180 Nickerson St. CT ENGINEERING Suite 302 --1{`{�/t//�t/�/ l INC. j� Seattle,WA Project: -TYR+ Ch— S I 1 Ulllt i L� R6s• Date: 98109 t (206)265-4512 FAX: Client: Page Number: (206)285-0618 1/1/ 5 wu 6,A 7) �/1 1 l o MPW- ( uL 4 5 Psi 0Z ,° 2r . .10 CaviNlo SS ' 36 . EEO 1p8 l/( 0,6)(0,7 (o,6) )617 4t• L4Lr Asb 56 1.100-: - VP e W igs oy -coi-immo TP1446 69ANY15A- i2 ( • 4)(7) (), 6,6) (-00v o 6-6y (1-z2/7)(0,75 (0,{0 . ,/b - • - • -1---41,s_ fiii,-75e_ ' 00)_ ct-= (5Y nm) --- DviA)t,i 1„--7 Structural Engineers TRUSS TO WALL CONNECTION ';I'i VAI l II'; # OF TRUSS CONNECTOR TO TRUSS TO TOP PLATES ul'111I I1 PLIES 1 HI (6) 0.131" X 1.5" (4) 0.131" X 2.5" 400 ,I' 1 H2.5A (5) 0.131" X 2.5" (5) 0.131" X 2.5" 5,',!) Hu 1 SDWC15600 - - 4t,' I ..... 2 H10-2 (9) 0.148" X 1.5" (9) 0.148` X 1.5" in/( iOl - 2 (2)H2.5A (5) 0.131" X 2.5" EA. (5) 0.131" X 2.5" EA. III/0 2.'0 2 (2)SDWC15600 - - Vit,__ - 7 so 3 (3)SDWC15600 ROOF FRAMING PER PLAN Bd AT 6" O.C. 2X VENTED BLK'G. 0.131" X 3" TOENAIL ES 4 '�' AT 6" O.C. r y, $ H2,5A & SDWC15600 STYI F COMMON/GIRDER TRUSS --11&- PER PLAN TRUSS TO WALL CONNECTION TO EACH H1 STYLE BEARING/SHEAR WALL PER TRUSS PLY PER TABLE ABOVE PLAN AND SCHEDULE SCALE: 3/4"=1'-0" (BEAM/HEADER AT SIMILAR) 14 TYP. RAISED HEEL TRUSS TO WALL CONNECTION [ TRUSS TO WALL CONNECTION !;PF VAI UI-`, #OF TRUSS CONNECTOR TO TRUSS TO TOP PLATES UPI.IFf 11 PLIES 1 HI (6) 0.131" X 1.5" (4) 0.131" X 2.5" ICA_I 415 1 H2.5A (5) 0.131" X 2.5" (5)0.131" X 2.5" 535 L_ Ill 1 SDWC15600 - - 4515 115 2 H10-2 (9) 0.148" X 1.5" (9) 0.148" X 1.5" 1070 700 2 (2)H2.5A (5) 0.131" X 2.5" EA. (5) 0.131" X 2.5" EA. inn -11 2 (2)SOWCI5600 - - 970 10 3 ADD A35 0 48"O.C. ROOF FRAMING PER PLAN FOR H2.5A AND Sd AT 6" O.C. iiiiihilk SDWC STYLE CONNECTIONS2X VENTED BLK'G. 1.11141:tiiiii*, 1111111111.‘ 444 Mt I H2.5A & SDWC15600 STYI F i COMMON/GIRDER TRUSS - PER PLAN TRUSS TO WALL CONNECTION TO EACH H1 STYLE BEARING/SHEAR WALL PER TRUSS PLY PER TABLE ABOVE PLAN AND SCHEDULE SCALE 3/4"= 1'-0' (BEAM/HEADER AT SIMILAR) 19 TYPICAL TRUSS TO WALL CONNECTION [ 180 Nickerson St. C T ENGINEERING Suite 302 t N C. Seattle,WA r q sn19 as D Date: 98109 Project: !�i� (206)285-4512 FAX: Client: Page Number: (206)285-0618 • • FovnDfjT►py 7 good pJf • U PP , tw t (5 p +/(l.I): +U o p r f}c9') 'z -iso z• GnwuPfc� �ti L . 5 -pJ�l(:19 ' • • • :3 Inn W ly . to .k 6SY) pcf) C /121)C21) Zoo , . •• 1. • i.. : ' . h '}- , ; Fie ; ,: _• W ' (15ttct) lj1iZ )C.14. , p . . 1 . ' ToT ` ZC-I WioT , 211J'pA.l _ I63 pafj .% 00`0 pal Ub , , Corr F'rt. 11,:`` 1 J L D • . t t •: . , i . • • • Structural Engineers Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 5:56PM, 9 DEC 14 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580000 Page 1 User.KW-0602997,Ver5.8.0,1-Deo-2003 Square Footing Design (c)1983-2003 ENERCALC Engineering Software plan 5019 abd.ecw:Calculations Description 5019ABD-FTG F1 General Information Code Ref:ACI 318-02,1997 UBC,2003 IBC,2003 NFPA 5000 0 Dead Load 1.200 k Footing Dimension 1.500 ft Live Load 3.000 k Thickness 10.00 in Short Term Load 0.000 k #of Bars 2 Seismic Zone 3 Bar Size 4 Overburden Weight 0.000 psf Rebar Cover 3.250 Concrete Weight 150.00 pcf fc 2,500.0 psi LL&ST Act Separately Fy 60,000.0 psi Load Duration Factor 1.000 Column Dimension 3.50 in Allowable Soil Bearing 2,000.00 psf Note: Load factoring supports 2003 IBC and 2003 NFPA 5000 by virtue of their references to ACI 318-02 for concrete design. Factoring of entered loads to ultimate loads within this program is according to ACI 318-02 C.2 Reinforcing Rebar Requirement Actual Rebar"d"depth used 6.500 in As to USE per foot of Width 0.216 in2 200/Fy 0.0033 Total As Req'd 0.324 in2 As Req'd by Analysis 0.0003 in2 Min Allow%Reinf 0.0014 Min.Reinf%to Req'd 0.0014 % Summary Footing OK 1.50ft square x 10.0in thick with 2-#4 bars Max.Static Soil Pressure 1,991.67 psf Vu:Actual One-Way 2.55 psi Allow Static Soil Pressure 2,000.00 psf Vn*Phi:Allow One-Way 85.00 psi Max.Short Term Soil Pressure 658.33 psf Vu:Actual Two-Way 19.08 psi Allow Short Term Soil Pressure 2,000.00 psf Vn*Phi:Allow Two-Way 170.00 psi Alternate Rebar Selections... Mu :Actual 0.58 k-ft/ft 2 #4's 2 #5's 1 #6's Mn*Phi:Capacity 7.42 k-ft/ft 1 #7's 1 #8's 1 #9's 1 #10's Title: CALAIS AT VILLEBOIS Job#14301 Dsgnr: ARS Date: 4:09PM, 23 FEB 15 Description:SF RESIDENCE Scope: STRUCTURAL DESIGN Rev: 580000 User KW-0602997,Ver 5.8.0,1-Dec-2003 Square Footing Design Page 1 (c)1983-2003 ENERCALC Engineering Software plan 19 abd.ecw:Calculations — Description 5019ABD-FTG F2 General Information Code Ref:ACI 318-02,1997 UBC,2003 IBC,2003 NFPA 5000 Dead Load 4.500 k Footing Dimension 3.000 ft Live Load 12.100 k Thickness 10.00 in Short Term Load 0.000 k #of Bars 4 Seismic Zone 3 Bar Size 4 Overburden Weight 0.000 psf Rebar Cover 3.250 Concrete Weight 150.00 pcf fc 2,500.0 psi LL&ST Act Separately Fy 60,000.0 psi Load Duration Factor 1.000 Column Dimension 5.50 in Allowable Soil Bearing 2,000.00 psf Note: Load factoring supports 2003 IBC and 2003 NFPA 5000 by virtue of their references to ACI 318-02 for concrete design. Factoring of entered loads to ultimate loads within this program is according to ACI 318-02 C.2 Reinforcing Rebar Requirement Actual Rebar"d"depth used 6.500 in As to USE per foot of Width 0.216 in2 200/Fy 0.0033 Total As Req'd 0.648 in2 As Req'd byAnalysis 0. 1in2 00 1 Min Allow%Reinf q Y 0.0014 Min.Reinf%to Req'd 0.0015 % Summary Footing OK 3.00ft square x 10.Oin thick with 4-#4 bars Max.Static Soil Pressure 1,969.44 psf Vu:Actual One-Way 29.55 psi Allow Static Soil Pressure 2,000.00 psf Vn*Phi:Allow One-Way 85.00 psi Max.Short Term Soil Pressure 625.00 psf Vu:Actual Two-Way 81.04 psi Allow Short Term Soil Pressure 2,000.00 psf Vn*Phi:Allow Two-Way 170.00 psi Alternate Rebar Selections... Mu :Actual 2.55 k-ft/ft 4 #4's 3 #5's 2 #6's Mn*Phi:Capacity 7.42 k-ft/ft 2 #7's 1 #8's 1 #9's 1 #10's J2 MAIN 12-7-15 N Roseburg 7:55am A Forest Products Company 1 of 1 CS Beam 4.21.0.1 kmBeamEngine 4.13.8.1 Materials Database 1534 Member Data Description: Member Type:Joist Application: Floor Top Lateral Bracing: Continuous Bottom Lateral Bracing: Continuous Standard Load: Moisture Condition: Dry Building Code: UBC Live Load: 40 PSF Deflection Criteria: L/480 live, L/240 total Dead Load: 12 PSF Deck Connection: Glued&Nailed Filename: Beam1 III 1"F ITh / 1 / / 7 7 0 10 2 011 6 0 9 ©2930 / Bearings and Reactions Input Min Gravity Gravity Location Type Material Length Required Reaction Uplift 1 0' 0.000" Wall DFL Plate(625psi) 3.500" 1.750" 238# -- 2 7' 7.000" Wall DFL Plate(625psi) 3.500" 3.500" 706# -- 3 17' 9.000" Wall DFL Plate(625psi) 3.500" 3.500" 889# -- 4 29' 3.000" Wall DFL Plate(625psi) 3.500" 1.750" 334# -- Maximum Load Case Reactions Used for applying point loads(or line loads)to carrying members Live Dead 1 193#(145plf) 45#(33plf) 2 562#(421plf) 145#(108plf) 3 690#(517plf) 200#(150plf) 4 262#(196p1f) 72#(54plf) Design spans 7' 4.375" 10' 2.000" 11' 3.375" Product: 11 7/8" RFPI-20 16.0" O.C. PASSES DESIGN CHECKS Design assumes continuous lateral bracing along the top chord. Design assumes continuous lateral bracing along the bottom chord. Lateral support is required at each bearing. Allowable Stress Design Actual Allowable Capacity Location Loading Positive Moment 801.'# 3640.'# 21% 23.95' Odd Spans D+L Negative Moment 935.'# 3640.'# 25% 17.75' Adjacent 2 D+L Shear 474.# 1420.# 33% 17.75' Adjacent 2 D+L End Reaction 334.# 1316.# 25% 29.25' Odd Spans D+L Int.Reaction 889.# 1935.# 45% 17.75' Adjacent 2 D+L TL Deflection 0.0580" 0.5641" L/999+ 23.95' Odd Spans D+L LL Deflection 0.0473" 0.2820" L/999+ 23.95' Odd Spans L Control: Max Int.React. DOLs: Live=100% Snow=115% Roof=125% Wind=160% SIMPSON All product names are trademarks of their respecbve owners KAM I L HENDERSON �Q+;;,�,,,�,,,,,,� EWP MANAGER StrOflg�. Copyright(C)2015 by Simpson Strong-Tie Company Inc.ALL RIGHTS RESERVED. PACIFIC LUMBER&TRUSS "Passing is defined as when the member,floor joist,beam or girder,shown on this drawing meets applicable design criteria for Loads,Loading Conditions,and Spans listed on this sheet.The design BEAVERTON,OREGON must be reviewed by a qualified designer or design professional as required for approval.This design assumes product installation according to the manufacturer's specifications. 503-858-9663 1 J1 MAIN 12-7-15 ti Roseburg 7:53am A Forest Products Company 1 of 1 CS Beam 4.21.0.1 kmBeamEngine 4.13.8.1 Materials Database 1534 Member Data Description: Member Type:Joist Application: Floor Top Lateral Bracing: Continuous Bottom Lateral Bracing: Continuous Standard Load: Moisture Condition: Dry Building Code: UBC Live Load: 40 PSF Deflection Criteria: L/480 live, L/240 total Dead Load: 12 PSF Deck Connection: Glued&Nailed Filename: Beam1 '1` T O 1780 / / 17 8 0 Bearings and Reactions Input Min Gravity Gravity Location Type Material Length Required Reaction Uplift 1 0' 0.000" Wall DFL Plate(625psi) N/A 1.750" 617# -- 2 17' 8.000" Wall DFL Plate(625psi) N/A 1.750" 617# -- Maximum Load Case Reactions Used for applying point loads(or toe loads)to carrying members Live Dead 1 475#(356plf) 142#(107plf) 2 475#(356p1f) 142#(107p1f) Design spans 17' 9.750" Product: DBL 11 7/8" RFPI-20 16.0" O.C. PASSES DESIGN CHECKS Minimum 1.75"bearing required at bearing#1 Minimum 1.75"bearing required at bearing#2 Design assumes continuous lateral bracing along the top chord. Design assumes continuous lateral bracing along the bottom chord. Lateral support is required at each bearing. Allowable Stress Design Actual Allowable Capacity Location Loading Positive Moment 2750.'# 7280.'# 37% 8.83' Total Load D+L Shear 617.# 2840.# 21% 0' Total Load D+L TL Deflection 0.2633" 0.8906" L/811 8.83' Total Load D+L LL Deflection 0.2026" 0.4453" L/999+ 8.83' Total Load L Control: LL Deflection DOLs: Live=100% Snow=115% Roof=125% Wind=160% SIMPSON All product names are trademarks of their respective owners KAM I L HENDERSON EWP MANAGER Strongale Copyright(C)2015 by Simpson Strong-Tie Company Inc.ALL RIGHTS RESERVED. PACIFIC LUMBER&TRUSS `"Passing is defined as when the member,floor joist,beam or girder,shown on this drawing meets applicable design criteria for Loads,Loading Conditions,and Spans listed on this sheet.The design BEAVERTON,OREGON must be reviewed by a qualified designer or design professional as required for approval.This design assumes product installation according to the manufacturer's specifications. 503-858-9663