A reinforced concrete beam has a 28 day compressive strength of 5 ksi. What is the...
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reinforced concrete beam has a 28 day compressive strength of 5
ksi. What is the...
Problem 2. A concrete beam is reinforced by three steel rebars placed as shown. The modulus...
Problem 2. A concrete beam is reinforced by three steel rebars placed as shown. The modulus of elasticity is 3x106 psi for concrete and 29x106 psi for steel. Find the tensile stress in rebars and maximum compressive stress in concrete under an external bending moment of (a) 80 kip.in and (b) 240 kip.in. Given the compressive strength of concrete fe' = 3 ksi and yield stress of rebars fy = 60 ksi, discuss the state of crack in concrete and...
10, A w24x 55 floor beam supports a 4-inch-thick reinforced concrete slab with an effective width...
10, A w24x 55 floor beam supports a 4-inch-thick reinforced concrete slab with an effective width of 78 inches. The 28-day compressive strength of the concrete is 4 ksi. a. Determine required number of anchors to make the beam fully composite. b. Calculate resisting moment of the steel beam before concrete hardens,pMn. c. Calculate resisting moment of the composite beam, Mn. d. If number of studs are reduced by 25%, determine the available flexural strength of composite beam,oMn. Calculate final...
2. A rectangular beam, 400 x 600 mm gross dimension, is cast using a concrete strength...
2. A rectangular beam, 400 x 600 mm gross dimension, is cast using a concrete strength of fc 30 MPa, reinforced with 5-25 mm diameter steel bar at the effective depth of 500 mm. If is subjected to a moment, M 130 kN-m. Determine the following: Magnitude of the bending moment that cracks the singly-reinforced beam section. (10 pts) b. For the computed cracking moment, determine the maximum compressive stress in the concrete and the stress in the tension steel....
27.2 Much as in Exercise 27.1, a rectangular steel-reinforced concrete beam supports a uni- formly distributed...
27.2 Much as in Exercise 27.1, a rectangular steel-reinforced concrete beam supports a uni- formly distributed load of 4.5 kip/ft (including the beam weight) for a span of 28 ft. The breadth (b) of the beam is 16 in. The effective depth (d) of the beam section was rounded a compressive strength (f) of 4000 Ib/in2 and grade 60 steel for tensile and web reinforcement are specified. Six longitudinal tensile bars are to be used. Specify the gange number of...
A reinforced concrete beam of T-section is cast from N32 concrete. The beam has a flange...
A reinforced concrete beam of T-section is cast from N32
concrete. The beam has a flange width of 805mm, flange thickness
90mm, web width of 300mm and overall depth of 650mm. Two, N32
tensile rods with an effective cover of 46mm are located in web
area, and four, N20 compressive rods with an effective cover of
25mm are located in the flange area. The center-to-center distance
between the compressive rods is 225mm. The bending moment applied
to the section is...
2. A reinforced concrete beam has the cross-section shown below. This beam uses norm weight concrete...
2. A reinforced concrete beam has the cross-section shown below. This beam uses norm weight concrete with f 4,000 psi. Calculate the cracking moment and cracking curvature. ー5#9 29 in Gr. 60 Bars 32 in. トー 18 in. Figure for Question 2
4. Determine the flexural strength (фМп) and shear strength (OVn) of the given section below. The RC beam in Engineering Building is reinforced with 4#10 for tensile reinforcement at the bottom,...
4. Determine the flexural strength (фМп) and shear strength (OVn) of the given section below. The RC beam in Engineering Building is reinforced with 4#10 for tensile reinforcement at the bottom, 2#4 for compressive reinforcement at the top, and stirrups with #3@ 9" on center. (fc 6 ksi, fy 60 ksi for top and bottom reinforcement, and fyt -40 ksi for stirrups): Case 1: t- 3 in (20 points) and Case 2: t- 10 in (20 points) . 14" 6...
Problem 1 (50% 16.0 The normal weight reinforced concrete beam shown has a 15' cantilever span...
Problem 1 (50% 16.0 The normal weight reinforced concrete beam shown has a 15' cantilever span and the following properties fc 3000 psi fy - 40 ksi 18.0 6-10 bars (a) (10%) Determine the cracking moment of the beam. 24.0 Do not complete any code checks (min/max steel, min. beam width, etc.) 3.0
4. Compressive strength testing performed on a concrete specimen at 28 days revealed a failure load...
4. Compressive strength testing performed on a concrete specimen at 28 days revealed a failure load of 90000 lb. Split tensile testing had a failure load of 22500 lb. The specimen is cylindrical with a 4" diameter and 8" length. Calculate the following: a. Con.pressive strength b. Tensile strength c. Moduli of rupture and elasticity.
Problem 3- Concrete Stress-Strain (Everyone) A normal density concrete has a compressive strength (fc) of 14,000...
Problem 3- Concrete Stress-Strain (Everyone) A normal density concrete has a compressive strength (fc) of 14,000 psi. Strain corresponding to peak stress (Eo) is 0.0025. A compressive stress is applied to the concrete. (a) This stress is increased in value from zero to 10,000 psi over a short period of time and is then reduced to 6,000 psi. Calculate the compressive strain in concrete at this point in (b) The stress is then increased to 12,000 psi. Calculate the compressive...
Problem 2. A concrete beam is reinforced by three steel rebars placed as shown. The modulus of elasticity is 3x106 psi for concrete and 29x106 psi for steel. Find the tensile stress in rebars and maximum compressive stress in concrete under an external bending moment of (a) 80 kip.in and (b) 240 kip.in. Given the compressive strength of concrete fe' = 3 ksi and yield stress of rebars fy = 60 ksi, discuss the state of crack in concrete and...
10, A w24x 55 floor beam supports a 4-inch-thick reinforced concrete slab with an effective width of 78 inches. The 28-day compressive strength of the concrete is 4 ksi. a. Determine required number of anchors to make the beam fully composite. b. Calculate resisting moment of the steel beam before concrete hardens,pMn. c. Calculate resisting moment of the composite beam, Mn. d. If number of studs are reduced by 25%, determine the available flexural strength of composite beam,oMn. Calculate final...
2. A rectangular beam, 400 x 600 mm gross dimension, is cast using a concrete strength of fc 30 MPa, reinforced with 5-25 mm diameter steel bar at the effective depth of 500 mm. If is subjected to a moment, M 130 kN-m. Determine the following: Magnitude of the bending moment that cracks the singly-reinforced beam section. (10 pts) b. For the computed cracking moment, determine the maximum compressive stress in the concrete and the stress in the tension steel....
27.2 Much as in Exercise 27.1, a rectangular steel-reinforced concrete beam supports a uni- formly distributed load of 4.5 kip/ft (including the beam weight) for a span of 28 ft. The breadth (b) of the beam is 16 in. The effective depth (d) of the beam section was rounded a compressive strength (f) of 4000 Ib/in2 and grade 60 steel for tensile and web reinforcement are specified. Six longitudinal tensile bars are to be used. Specify the gange number of...
A reinforced concrete beam of T-section is cast from N32
concrete. The beam has a flange width of 805mm, flange thickness
90mm, web width of 300mm and overall depth of 650mm. Two, N32
tensile rods with an effective cover of 46mm are located in web
area, and four, N20 compressive rods with an effective cover of
25mm are located in the flange area. The center-to-center distance
between the compressive rods is 225mm. The bending moment applied
to the section is...
2. A reinforced concrete beam has the cross-section shown below. This beam uses norm weight concrete with f 4,000 psi. Calculate the cracking moment and cracking curvature. ー5#9 29 in Gr. 60 Bars 32 in. トー 18 in. Figure for Question 2
4. Determine the flexural strength (фМп) and shear strength (OVn) of the given section below. The RC beam in Engineering Building is reinforced with 4#10 for tensile reinforcement at the bottom, 2#4 for compressive reinforcement at the top, and stirrups with #3@ 9" on center. (fc 6 ksi, fy 60 ksi for top and bottom reinforcement, and fyt -40 ksi for stirrups): Case 1: t- 3 in (20 points) and Case 2: t- 10 in (20 points) . 14" 6...
Problem 1 (50% 16.0 The normal weight reinforced concrete beam shown has a 15' cantilever span and the following properties fc 3000 psi fy - 40 ksi 18.0 6-10 bars (a) (10%) Determine the cracking moment of the beam. 24.0 Do not complete any code checks (min/max steel, min. beam width, etc.) 3.0
4. Compressive strength testing performed on a concrete specimen at 28 days revealed a failure load of 90000 lb. Split tensile testing had a failure load of 22500 lb. The specimen is cylindrical with a 4" diameter and 8" length. Calculate the following: a. Con.pressive strength b. Tensile strength c. Moduli of rupture and elasticity.
Problem 3- Concrete Stress-Strain (Everyone) A normal density concrete has a compressive strength (fc) of 14,000 psi. Strain corresponding to peak stress (Eo) is 0.0025. A compressive stress is applied to the concrete. (a) This stress is increased in value from zero to 10,000 psi over a short period of time and is then reduced to 6,000 psi. Calculate the compressive strain in concrete at this point in (b) The stress is then increased to 12,000 psi. Calculate the compressive...
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