Influence of Elevated Temperature on Compressive Strength and Split tensile Strength of Fiber Reinforced Concrete
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Abstract – The aim of this study is to investigate the strength and modulus of elasticity progress of steel fiber reinforced concrete under different temperature condition
Concrete Type Compressive strength N/mm2 [after 7 days] Compressive strength N/mm2 [after 28 days] 1 Conventional concrete 23.556 24.4 2 Nylon fiber reinforced concrete 24.4
Elastic modulus results from the tensile testing of composites with the variations of fiber orientation and treatment From Figures 7 and 8, the value of the tensile strength and
This research was conducted to determine the optimum fiber concentration value which resulted in the value of split tensile strength, compressive strength of maximum mortar, fiber
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Since ultra high performance concrete has much higher compressive strength than normal strength concrete and usually reinforced with steel fiber, shape of stress distribution in
The study of the performance of normal sections of bending reinforced concrete elements reinforced in the tensile and compression zones with fiber-reinforced laminate tapes was
