A rectangular beam has a width of 300 mm and effective depth of 600 mm. The beam is reinforced with tension reinforcements having a total area of 2413 mm^2 with a steel covering of 80 mm. The beam is subjected to a factored shear force of 160 mm at its critical section "d" distance from the support, having a span of 6 m. Assume normal weight of concrete. If the beam is subjected to a tensile axial force of 270 kN and f'c-28 MPa, fy=415 MPa, fyt-270 MPa, calculate the following: a) Maximum shear strength of concrete.
A rectangular beam has a width of 300 mm and effective depth of 600 mm. The beam is reinforced with tension reinforcements having a total area of 2413 mm^2 with a steel covering of 80 mm. The beam is subjected to a factored shear force of 160 mm at its critical section "d" distance from the support, having a span of 6 m. Assume normal weight of concrete. If the beam is subjected to a tensile axial force of 270 kN and f'c-28 MPa, fy=415 MPa, fyt-270 MPa, calculate the following: a) Maximum shear strength of concrete.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:A rectangular beam has a width of 300 mm and effective depth of 600 mm. The beam is
reinforced with tension reinforcements having a total area of 2413 mm^2 with a steel
covering of 80 mm. The beam is subjected to a factored shear force of 160 mm at its
critical section "d" distance from the support, having a span of 6 m. Assume normal weight
of concrete. If the beam is subjected to a tensile axial force of 270 kN and f'c-28 MPa,
fy=415 MPa, fyt-270 MPa, calculate the following:
a) Maximum shear strength of concrete.
b) Spacing of 10 mm web reinforcements due to the loads.
c) Determine the minimum area of shear reinforcement for the given loads
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