Cohesive stress and fiber pullout behavior in fracture response of concrete with steel and macropolypropylene hybrid fiber blends

Bhogone, Manjunath V. and Pazhankave, Silpa S. and Subramaniam, Kolluru V. L. (2021) Cohesive stress and fiber pullout behavior in fracture response of concrete with steel and macropolypropylene hybrid fiber blends. Fatigue & Fracture of Engineering Materials & Structures. ISSN 8756-758X

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Abstract

The fracture behavior of concrete with steel and macropolypropylene hybrid fiber blends (HyFRC) is evaluated and compared with steel fiber reinforced concrete (SFRC). Fiber blends at identical volume fraction as SFRC are shown to produce an improvement in the fracture response. At small crack separation, immediately after cracking, higher cohesive stress is produced in HyFRC compared to SFRC. Polypropylene fibers in concrete contribute cohesive stresses at larger crack separation. Polypropylene fibers in the concrete matrix improve the efficiency of the steel fibers by mobilizing a higher resistance at the initiation of the pullout. The initial stiffness, peak load, and the residual frictional resistance of the steel fiber pullout are increased with the addition of the polypropylene fibers. The higher reinforcing efficiency of steel fibers in the presence of polypropylene fibers is due to improved fiber–matrix bond, which results in a higher cohesive stress at smaller crack openings.

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