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Report (�� 7 c&2 / i' s7` 325 West 13T"Avenue g EIIJOHNSON BRODERICK Eugene,Oregon,97401 541-338-9488(office) ENGINEERING 541-338-9483(fax) wwwiohnsonBroderickEngineering.com Paul Tibbot FDH Velocitel 4004 SW Kruse Way Place, Suite 220 Lake Oswego, OR 97035 Re: Upgrade to Roof Framing at Supports for Proposed Panel Antennas 6975 Southwest Sandberg Road,Tigard, Oregon, 97223—AT&T Site PR35 Paul, Per your request,Johnson Broderick Engineering has reviewed the failing structural analysis we submitted to you regarding the addition of larger panel antennas and associated equipment to existing non-penetrating rooftop skids, located atop an existing commercial building at 6975 Southwest Sandberg Road in Tigard, Oregon. Our previous analysis showed that the skids required at least 37 8 inch CMU blocks at each ballast tray to prevent the skid from overturning, and that the existing roof framing did not have adequate capacity to support this additional load. Therefore,we calculated what would be required at the roof framing to support this load. The existing framing consists of 2 x 12 joists spaced at 24 inches on center,which bear on steel beams. The results of a previous structural analysis that we were provided with demonstrate that the steel beams are adequate, therefore it is our assumption that our scope of work is limited to upgrading the existing roof joists only. Additionally,we understand that due to space limitations, you will be upgrading the skids to new Valmont RTP12 non-penetrating roof skids. We have taken the weight of this new skid into account in our analysis. Our findings are as follows. Existing 2 x 12 wood joists that support any of the non-penetrating roof skids are to have an new 1-3/4"x 11-7/8" 1.9 MicroLam LVL joist sistered to the existing joist and fastened per the attached detail. Contractor is to forward information regarding the attachment of the existing joists to the steel beam for engineer's review so that a proper connection can be specified. This is a deferred submittal based on the contractor forwarding this information. We appreciate the opportunity to be of service. Please call if you have any comments or ques ' �tit WriRd IE. Li, gineering, ring,LLC ORES: t1(1' g Revision 0 June 22,2016 JBE project No. 15024.15 i k 325 West 13th Avenue B JOHNSON Eugene,Oregon 97401 - jB R O D E R I C K 541-338-9488(office) ENGINEERING 541-338-9483(fax) www.JohnsonBroderickEngineering.com 6C1 0fieka,�,, --y Df rf d►;s+5 WI P' Kvw slc�� mav5 4i(y51 1,41,164,5-)41_9 Kef rl = lVlH 11, W.41,04.- �►f sviA G 03 t6 1 wftSk+ = 2. 5..) tb A , lAy = Ct2 - ')��rooZ..) ) ` tf 6 `!-ts- => 2 J = 52 ?s{ 51zv1 M&A (An 6l t - r,`!,L wb= lc Q5� A- c2- fS� = V-1 (Kt(' " k1� Q = Z�4° 4::11,,,,Iki'i4" / 0.(/;e2 I. %( wi---' 1) c?lc' i i t k LiY 2 ` 5 {�a91- �, 2k (2 w _ I Project: pe-?,c. Project#: tcb2Af_ 0 1 By: Date: �(/(,(g 6,2,2- I C Page: ( of: 2. I f Project: 15024.15-PR35-Tigard LTE Page Aaron Broderick 2 Location:Worst-case upgraded roof beam-ballast load at both ends,load d a,iiJC . Johnson Broderick Engieering,LLC Z Multi-Loaded Multi-Span Beam 325 West 13th Avenue [2012 International Building Code(2012 NDS)) Eugene,Oregon,97401 (2)1.5 IN x 11.25 IN x 18.0 FT #i &Btr-Douglas-Fir-Larch-Dry Use StruCalc Version 9.0.2.5 6/22/2016 5:57:50 PM Section Adequate By:29.3% Controlling Factor:Moment CAUTIONS 'Laminations are to be fully connected to provide uniform transfer of loads to all members DEFLECTIONS Center LOADING DIAGRAM Live Load 0.18 IN U1172 Dead Load 0.33 in Total Load 0.51 IN L/422 Live Load Deflection Criteria:U360 Total Load Deflection Criteria:U240 REACTIONS B g Live Load 450 lb 450 lb Dead Load 539 lb 1593 lb Total Load 989 lb 2043 lb Bearing Length 0.53 in 1.09 in R -_1" „h BEAM DATA Center W Span Length 18 ft Unbraced Length-Top 2 ft 18 n AL Unbraced Length-Bottom 18 ft Live Load Duration Factor 1.15 Notch Depth 0.00 MATERIAL PROPERTIES UNIFORM LOADS Center #1 &Btr-Douglas-Fir-Larch Uniform Live Load 50 plf Base Values Adjusted Uniform Dead Load 30 plf Bending Stress: Fb= 1200 psi Fb'= 1372 psi BeamSelf Weight 7 plf Cd=1.15 C1=0.99 CF=1.00 TotaallUniform Load 87 plf Shear Stress: Fv= 180 psi Fv'= 207 psi TRAPEZOIDAL LOADS-CENTER SPAN Cd=1.15 Load Number One Modulus of Elasticity: E= 1800 ksi E'= 1800 ksi Left Live Load 0 plf Comp.1-to Grain: Fc--I-= 625 psi Fc-1'= 625 psi Left Dead Load 292 plf Right Live Load 0 plf Controlling Moment: 5597 ft-lb Right Dead Load 292 plf 11.34 Ft from left support of span 2(Center Span) Load Start 13 ft Created by combining all dead loads and live loads on span(s)2 Load End 18 ft Controlling Shear: -2043 lb Load Length 5 ft 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: Reo'd Provided Section Modulus: 48.96 in3 63.28 in3 Area(Shear): 14.8 in2 33.75 in2 Moment of Inertia(deflection): 202.58 in4 355.96 in4 Moment: 5597 ft-lb 7234 ft-lb Shear: -2043 lb 4658 lb NOTES