Abstract
To improve the high brittleness of recycled aggregate concrete containing iron ore tailings (TRAC), the feasibility of adding polypropylene fiber (PPF) to TRAC was studied by performing a compression stress–strain curve test, scanning electron microscope characterization, and a freeze–thaw cycle test. The results indicated that PPF had a beneficial impact on reducing the brittleness of TRAC. With the increase in PPF content, the peak strain increased, the elastic modulus decreased, and the peak stress and energy absorption capacity increased at first and then decreased. Furthermore, the microstructure investigation revealed that the interface friction between the PPF, aggregate, and cement matrix was the main source of energy dissipation. When the load acted on the concrete, the stress was dispersed to the fiber monofilaments, thus effectively enhancing the peak stress and peak strain of concrete and suppressing the generation and development of cracks in the concrete. In terms of freeze–thaw resistance, adding a small amount of PPF could reduce the negative effects of the freeze–thaw process on the cement matrix. On the premise of ensuring strength, the waste utilization should be as high as possible. Therefore, it was suggested that the content of PPF in fiber-reinforced tailings recycled aggregate concrete (TRAC-PP) should be 0.6%.
Highlights
With the advancement in industrialization and urbanization, infrastructural growth is increasing
In addition to this, when recycled coarse aggregate (RCA) was incorporated in concrete at higher substitution levels, the freeze–thaw resistance of concrete was significantly reduced compared to natural aggregate concrete (NAC) [8,9]
It was found that the peak strains were significantly higher in the tailing recycled aggregate concrete (TRAC)-PP
Summary
With the advancement in industrialization and urbanization, infrastructural growth is increasing. Several studies have shown the enhancement of mechanical properties of RAC by the addition of iron ore tailings (IOTs) [10,11,12]. Studying its mechanical and durability properties can provide a reference for the engineering application of TRAC. The research results of Malek et al [26] indicated that the addition of waste PPF into high-performance concrete can substantially improve the compressive strength, splitting tensile strength and flexural strength. Combined with the results of mechanical property as analyzed above, it can be concluded that PPF can mitigate two opposing weakness: poor ductility in cement–tailings matrix composites and cracking resistance in plain concrete. It is vital to investigate that whether all the assumed hypotheses to design structures of cement–tailings matrix composites and plain concrete are valid for fiber-reinforced tailings recycled aggregate concrete (TRAC-PP). Freeze–thaw cycles attack and durability design of concrete structures to be built
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