Determine the cracking stress of concrete in a reinforced beam of rectangular section of breadth 250mm,...

A reinforced concrete beam is constructed with Grade 30 concrete which has a cross section of...

A reinforced concrete beam is constructed with Grade 30 concrete which has a cross section of 450 mm x 660 mm (b = 450 mm and D = 660 mm). The length of the beam is 5 m. The elastic modulus of the concrete is 32.8 GPa. A uniformly distributed live load of 23 kN/m is acting on the beam. Determine (a) the design bending moment on this beam for strength limit state, (b) modular ratio assuming Es = 200...

A rectangular RC beam is simply supported over a span of 8m and carries a dead...

A rectangular RC beam is simply supported over a span of 8m and carries a dead load of 15kN/m (including self-weight) and an imposed load of 8kN/m. The beam is 250mm wide and has an effective depth of 400mm. Grade 30 concrete is to be used. Determine if the beam should be singly reinforced or doubly reinforced.

Determine the largest allowable bending moment for a rectangular reinforced concrete beam having the width b...

Determine the largest allowable bending moment for a rectangular reinforced concrete beam having the width b = 200 mm, total height h = 375 mm and the distance from the bottom surface of the beam to the centre line of steel bars = 75 mm. Use the total area of steel As = 1360 mm2, modulus of elasticity of concrete = 30 GPa, modulus of elasticity of steel = 210 GPa, allowable compressive stress for concrete = 15 MPa and...

A rectangular, tension-reinforced beam is to be designed for dead load of 500 lb/ft plus self-weight...

A rectangular, tension-reinforced beam is to be designed for dead load of 500 lb/ft plus self-weight and service live load of 1200 lb/ft, with a 22 ft simple span. Material strengths will be fy = 60 ksi and fc・= 3 ksi for steel and concrete, respectively. The total beam depth must not exceed 16 in. Calculate the required beam width and tensile steel requirement, using a reinforcement ratio of 0.60 ρ0.005 . Use ACI load factors and strength reduction factors....

The width of a rectangular beam is 250 mm and the effective depth is 317 mm....

The width of a rectangular beam is 250 mm and the effective depth is 317 mm. The tensile reinforcement is provided by 3 bars of 16 mm. Determine the moment of resistance of the section as per limit state method. Extracts of BS8110 grades: Concrete 25 KN Fcu =40 N/mm2 Fy=fyv=460 N/mm2

A reinforcement concrete cross section of 200mm width and 400mm effective depth is provided with 4...

A reinforcement concrete cross section of 200mm width and 400mm effective depth is provided with 4 numbers of 20mm bars in tension zone and 3 numbers of 20mm bars in the compression zone at depth 50mm from the compression fiber. Determine whether the cross-section is capable of resisting limit moment

Design a rectangular reinforced concrete beam for Mu = 550 k-ft (not including self-weight). Use f’c...

Design a rectangular reinforced concrete beam for Mu = 550 k-ft (not including self-weight). Use f’c = 4000 psi and fy = 60,000 psi. Use a design ρ = 0.01. Using the method of bd2, and choosing a width b no smaller than 15 inches and no larger than 18 inches, design a beam to resist the moment. Save room for #3 stirrups. Report your final design and draw the cross-section labeling all dimensions and showing the rebar layout and...

a rectangular beam having dimensions: b=300mm and d=550mm, spans 6m face to face of simple supports....

a rectangular beam having dimensions: b=300mm and d=550mm, spans 6m face to face of simple supports. it is reinforced for flexure with 3D36mm bars that continue uninterrupted to the ends of the soan. it is to carry a service dead load of 23.8 KN/m (including self-weight) and a service lice load equal to 47.6 KN/m, both uniformly distributed along the span. use fc’=27.6 Mpa and fy=414.7 Mpa. Normal weight concrete will be used and diameter of stirrup are 10mm. 1.using...