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Plans RECEIVED SEP 142010 CITY OF TIGARD 5, fa CFA 1112slign Eir II .li ;'i 9 LUC BUILDING DIVISION STRUCTURAL I CIVIL I LAND USE PLANNING i ST UCTU ,' A L CALCULATIONS SPECIAL INSPECTION REQUIRED State of Oregon St lei;— Deck Support Piers O Concrete and ReInfortfi9MeSW Ventura Dr, Portland Oregon 97223 O Bolts Installed in Concrete ❑ Special Moment- Resisting ConClatt*Fatma oundation Systems O Reinforcing Steel & PrestreseNgtriattorit i. TIONS ARE VOID IF SEACTIMTGARD ❑ Structural Welding Approved. E O High-Strength Bolting • .- PRO/Cie \ Conditionally Approved [ 1 I N. See Letter to: Follow E I o Structural idiasonry ; <„- G i m �4' 0' A. h d -r� I O Reinforced Gypsum Concrete `_ seuzz�e � . P erm i t N um be r - , Ad s: �� ' ..f G G >nsulating Ccricrete Fill • yin? By: (offal Date: ' S Applied Fire - Resistive Materials � s? ° °" G O 1 Pilings, Drilled Piers and Caissons \ , Any S. ¢, ----] ❑ Shotcrete . ORES: J.2:2- , OFFICE COPY ❑ Special Grading, Excavation and Filling ❑ Smoke - Control Systems AND SIGNAT • ARE NOT ORIGINAL ❑ Other Inspections L MITATIONS 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. Project No. 10 -031 September 13, 2010 i SFA Design Group, ILE 4.f.O'fa No 9 ....:.::::.:,,..,..' STRUCTURAL 1 CIVIL 1 LAND USE PLANNING 1 SURVEYING !Project / 0 '`. 03 / Sheet No. / '''P•5 i Project Date i Subject By Vgq-A Dr_ 7-7 ( c r7 z.,-2/Aic / zi),t, - c zie5'06. '/ 6 L etee? 1/42/ I :..5,-; " , v -- - ' 7 ' # 0 / . ,.. , ..... , — .. , —, / -- . • . —......— ... :- - N) k .../' •• . I : ' .. :- . . . . . - ()G ------- • . . . • . " . .. . . .,.. ..... .. ... . . . . . . . . . , " :...... .. , -.(2""\- - . .. . . . . •... • •. . • • . . . 4F 27 715 AJE / z 53 4-6 _ZUZif Ai fq A9,4 ob.4 ‹.5)/STOrt< it 2-& 142-1 e 4- Helical Piers: Foundation Supportworks 288 hellca! Pier System P = 7.95 kips e = 4.25 in M = 33.79 in -kips Unbraced Length, 1 = 4.00 ft (Conservative) Pier Shaft Properties F Tube OD = 2.875 in Wall Thickness, t = 0.165 in k = 2.10 {G r 0.9599 in . , A 5 Ins 5 r'12,:A14, cp = (Tube OD)12 = 1.4375 In S, = I = 0.9005 in I = 1.2944 in E = 29000 ksl Fy = 50 ksi 71-1(1[ Il =if= 11=11 =U=11 =1 1= 11- 11 =11= 11 -11 =11 Sleeve Properties .11=11. -11 =11 11 =11 Sleeve Length = 30 in .9 _ 11 =11 =11 11=11= . Sleeve OD = 3.5 in A 1� 1 � I/ II: \ O 11 =11 =11 6, gal Wall Thickness, i = 0.216 in =11 -11= 6 , 11 -11 r = 1.16 In __ _......_..... - A=4:11( -11= A - 2.23 In t3� - il±l -1 A - a Note: Sleeve (04Sti± S = 1.72 In reduces bending try corr I = 3.02 in stress on main E = 29000 ksi pier only /219l co'C Fys = 50 ksi CG k 6 -7 /AtJC'ft0 /C CFKrifi t) Sleeve Output {� Fb = 0.66 "Fy = 33.00 ksi fb = [M "(1 1(I +I = 13.75 ksi Sleeve OK Pier Shaft Output kllr = 8.75 Cc = 60.36 Fe = 1949.31 ksi Fa = 28.75 kips fa = 5.66 ksi Fb = 0.66 "Fy = 33.00 ksl fb = [M "(I +I /S = 11.26 ksl ZoO °D /a /jz. ltd ZtClt -(-- cm = too r (L_ ur• .)rr, -- 0 fa/Fa = 0.20 Eq H1 -1 and Eq H1 -2 Pes57 ASD Eq H1 -1 0.54 <= 1.0 Pier OK ASD Eq H1 -2 0.53 <= 1.0 Pier OK ASD Eq H1 -3 NA 30>✓ Helix Properties 01 = 10 In tl = 0.375 in Al = 3.141 *D1 /4 = 78.525 in S1 = 1*t1 = 0.023 in' D2= 12 in t2 = 0.375 in A2 = 3.141 *D2 - 3.141 *(Tube 00) = 106.585 In S2 = 1 *t2 = 0.023 in D3 = 0 in t3 = 0.000 in A3 = 3.141 *D3 - 3.141 *(Tube 00) = 0.000 In S3 = 1*t3 = 0.000 in' Helix Material Capacity Fy = 36.00 ksi Fb = 0.75`Fy = 27.00 ksi w1 = 0.355 ksi 01 = Al *wl = 27.90 kips w2 = 0.277 ksi Q2 = A2*w2 = 29.57 kips w3 = 0.000 ksi Q3 = A3`w3 = 0.00 kips EQ = 57.46 kips OK Weld to Shaft: E70 Electrodes 70.000 ksi Size of Fillet Both Sides = 0.250 In Capacity of Fillet Both Sides = 7.424 kli R1 = 1.266 kips Weld OK R2 = 1.266 kips Weld OK R3 = 0.000 kips Weld OK Soils Cohesive Soil: Factor of Safety = 2.0 Blow Count, N = 11 Cohesion, c = 1.375 ksf Nc = 9 Q1 = Nc *c *A1 /FS = 3.37 kips < = == Cohesive Soil Controls Q2 = Nc*c*A2/FS = 4.58 kips < = == Cohesive Soil Controls Q3 = Nc *c *A3 /FS = 0.00 kips EQ = 7.95 kips OK Non•Cohesive Soil: Factor of Safety, FS = 2.0 Y= 110 pcf 0 = 32 ° Depth of Helix, 131 = 20 ft Depth of Helix, D2 = 23 ft min Depth of Helix, D3 = 0 ft min 01 = [A1 *y *D1`0.5[12 *0] *1000) = 10.20 kips 02 = [A2 *y`D2 *0.5[12 *0] °J64 ]I(FS *1000) = 15.92 kips Q3 = [A3 *y *D3 *0.5[12 *0) *1000) = 0.00 kips EQ = 26.11 kips OK USE: 2.875 in diameter pipe pile with 0.165" thick wall 30" long 3.5" diameter pipe sleeve w/ 0.216" wall 0.375 in thick 10/12 helix's at least 30 In apart with lead helix Installed to at least 20ft 0.25 in fillet welds each side of helix to pipe pile