Design the reinforcement of a rectangular beam to resist a dead load moment of 200kN.m (including its own weight) and a live load moment of 300kN.m. The beam is limited in size to 350mm by 600mm overall depth. Steel covering from centroid of bars to outermost fiber is 100mm for both tension and compression reinforcement. Use fc'=27.5Mpa, fy = 414MPa,
20mm bars

A.  As'= 7 of 20mm and As=14 of 20mm
B.   As' = 9 of 20mm and As=18 of 20mm
C.   As'= 5 of 20mm and As=10 of 20mm
D.    As' = 3 of 20mm and As=6 of 20mm

 

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M₁ = 1-2 MPL + 1.6MLL M₁ = 1-2 (200) + 1.6 (300) Arsuming $=0.9 Mn = Smax Mu $ Smax computing beam's 0.85 fé fy 0.018 = assuming maximum possible tensile steel and and nominal moment strength ³, = 800 KN-M 0.85 f. fy Ecu Ecu + Ec As, 3max (ACI Load Combination) = 720 KN m 1.-F (0.85)(27.5) 414 = 0·018 R = 6.26 MPa (0.85)(27.5) 414 H = Smax bd = (0·018 )(350) (500) 2Rn 0.8511 no compression steel (0.85) (-=- 2 Rn (0.85)(27.5) 0.003 0.003 +0.00 5 2 = 3150mm²

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A's Rn a = As2= Es = Mui &bd² As, fy 0.85 b ( = Mn 2 f's Number of Mn₂ Mni ³₁ (d-d) = bars = = Mai $ Mn-Mn₁ 6.26 = 159.4 0.85 (0.003) (3150) (414) (0.85)(27.5)(350) TT 492.975 0.9 Mui (0-9)(350)(500)² 252.25x106 (280) (500-100) 2252-23 x20² A's ts (2827.43) (280) fy. 414 = 187.53 mm = = 800 547.75 = 252.25 KN.m 187.53-100 187-53 = 159.4 mm. 547 75 KN-m ~ 9 = 2252.23 mm² 2 Mu, 2 = 1912-27 mm² - 492 975 KN.m (0.003) = 0.0014 < bars t₁ = (0-0014) (200000) = 280 тра Es = 414 200000 (As = 2827-43 mm²) = 0.002.07 As = As, + As₂ = 3150 + 2827-43 As = 5062.27 mm² (18 bars)