Although we design for flexure separately from shear, both flexure and axial force can have an impact on shear design. Is this statement correct? Explain ? Concrete reaching its maximum design strain rather than the steel reaching its yield strain is what always initiates flexural failure, regardless whether the section is under-reinforced, over- reinforced, or has a balanced reinforcement ratio. Is this a correct statement? justify your answer using a neat sketch. An under-reinforced beam section is safer than an over-reinforced one. Is this a correct statement? justify your answer using a neat sketch
Although we design for flexure separately from shear, both flexure and axial force can have an impact on shear design. Is this statement correct? Explain ? Concrete reaching its maximum design strain rather than the steel reaching its yield strain is what always initiates flexural failure, regardless whether the section is under-reinforced, over- reinforced, or has a balanced reinforcement ratio. Is this a correct statement? justify your answer using a neat sketch. An under-reinforced beam section is safer than an over-reinforced one. Is this a correct statement? justify your answer using a neat sketch
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Transcribed Image Text:Although we design for flexure separately from shear, both flexure and axial force can have an impact on shear
design. Is this statement correct? Explain ?
Concrete reaching its maximum design strain rather than the steel reaching its yield strain is what always initiates
flexural failure, regardless whether the section is under-reinforced, over- reinforced, or has a balanced reinforcement
ratio. Is this a correct statement? justify your answer using a neat sketch.
An under-reinforced beam section is safer than an over-reinforced one. Is this a correct statement? justify your
answer using a neat sketch
6.
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