Find the area of steel reinforcement required for concrete T-beam for the following data: ƒy is...

While working with a concrete subcontractor, you were asked to redesign a concrete beam to use...

While working with a concrete subcontractor, you were asked to redesign a concrete beam to use No #8 reinforcing bars as the Sub has excess amounts of it. To do so, you need to determine the following: 1) The effective depth of the beam (d) 2) The total depth of the beam (h) 3) The area of tensile reinforcing required and then the number of #8 bars The service load bending moments on the beam are 62 kip-ft for dead...

Calculate the total area of steel required in tension zone for a simply supported beam of...

Calculate the total area of steel required in tension zone for a simply supported beam of 230 mm wide, 406 mm effective depth. The total ultimate factored moment on the beam is 146.76 kN.m. Assume an effective cover for the compression reinforcement as 20 mm. Mu,lim of the section is 130.76 kN.m. Use M25 grade concrete and Fe415 steel. Check for spacing, shear and deflection is not required.

Problem 3 A reinforced concrete beam is cantilevered over a span of 10 ft. The beam...

Problem 3 A reinforced concrete beam is cantilevered over a span of 10 ft. The beam width is 14”. The beam is supposed to carry a uniformly distributed service dead load of 1.2 k/ft and a uniformly distributed service live load of 0.5 k/ft over its entire span. The dead load includes an allowance for the beam weight. Assume 60- ksi steel and 4,000-psi concrete. 1.Use the design equations to determine the minimum required effective depth (d). 2.Select the tensile...

A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective...

A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective depth (d) of 24 inches. It is reinforced with 3 # 8 bars. Assume 60-ksi steel and 3000-psi concrete. Determine the resisting moment (Mr) in ft-k that this beam can safely sustain. Problem 2 The beam given in Problem 1 has a span of 21 ft. It is supposed to carry a uniformly distributed service dead load of 3.7 k/ft, in addition to its...

Problem 1 A simply supported reinforced concrete beam has a width (b) of 14 inches, and...

Problem 1 A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective depth (d) of 24 inches. It is reinforced with 3 # 8 bars. Assume 60-ksi steel and 3000-psi concrete. Determine the resisting moment (Mr) in ft-k that this beam can safely sustain.

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....

Please select the reinforcement spacing for the entire span of a simply supported beam on a...

Please select the reinforcement spacing for the entire span of a simply supported beam on a 22 ft span. Use the detailed method to calculate Vc. Do not use a shear envelope diagram use the regular shear force diagram. Use b = 16 in., d = 27 in., the main bending reinforcement consists of 4 #9 bars. The unfactored dead and live loads are 2.6 Kip/ft and 2.5 kip/ft, respectively, f’c = 4500 psi, and fy = 60,000 psi. Use...

Knowing that the reinforced concrete beam cross section effective depth is d = 310 mm and...

Knowing that the reinforced concrete beam cross section effective depth is d = 310 mm and the properties of materials used are f'c = 28 MPa and fy = 420MPa and the external ultimate bending moment Mu = 254 KN.m with strain in tension steel reinforcement equal to 0.005 . The width of the beam is Select one : a . 511 b . 385 c . 460 mm d . 640

Problem 6 Design a 10-ft span steel wide-flange beam which that is required to support a...

Problem 6 Design a 10-ft span steel wide-flange beam which that is required to support a uniform service live load of 20 k/ft and a uniform service dead load of 17 k/ft. Assume the beam is 50-ksi. Does moment or shear govern?

A simply supported reinforced-concrete beam has to resist a maximum factored moment of M* = 210...

A simply supported reinforced-concrete beam has to resist a maximum factored moment of M* = 210 KN-m. Given that f’c = 32 MPa, fy = 500 MPa and that the maximum possible width for the beam is 240 mm: a. Establish an appropriate structural depth ‘d’ for the beam b. Determine the total depth ‘D’ of the beam for a FRL of 90 minutes c. Find the area of steel Ast required to resist the moment and select the rebars....