Rouhollah Rostami scite author profile

The fiber/matrix interface in fiber reinforced concrete (FRC) enhances due to the geometry of fiber surface. This work benefits from freedom of fiber engineering due to the availability of fiber production facilities. Non‐indented, indented, flat tape, and fibrillated macro polypropylene fibers were produced. The effect of fiber surface indentation and fibrillation on FRCs flexural performance was investigated. Concrete flexural strength due to the effect of fiber young modulus was found to increases by 94 and 61%, when indented and fibrillated fibers are used, respectively. The energy absorption capacity of samples containing indented and fibrillated fibers due to the effect of surface fibrillation were found to be 5.5 and 12.5 times more than that of control concrete, respectively. The mechanical performance of FRCs was modeled using finite element model. The model generated and experimental results showed acceptable compatibility. Thus, the model can be concluded to be a successful tool for prediction of FRCs flexural performance.

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The effect of specific surface area of macro fibers on energy absorption capacity of concrete

Rostami

Zarrebini

Sanginabadi

et al. 2018

The Journal of The Textile Institute

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An investigation into influence of physical and chemical surface modification of macro-polypropylene fibers on properties of cementitious composites

Rostami

Zarrebini

Sanginabadi

et al. 2020

Construction and Building Materials

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