Abrasion-Erosion Resistance of Fiber-Reinforced Concrete

Abstract

FRC (fiber reinforced concrete) has been used for repair of abrasion- erosion damaged areas such as stilling basins, conduits, sluiceways, and discharge laterals in hydraulic structures. However, the resistance of such concrete subjected to abrasive action of waterborne particles had not previously been evaluated. Thirteen concrete mixtures of three water-cement ratios ranging from 0.40 to 0.72, each containing one of four different types of steel fibers, were tested. As is true of concrete without steel fibers, the abrasion-erosion resistance of FRC increased with decrease in water-cement ratio and consequent increase in compressive strength. The lengths of the fibers had very little effect on the abrasion-erosion resistance, and the FRC containing collated and hooked fibers had better abrasion-erosion resistance than the comparable concrete containing straight fibers. A comparison of the performance of FRC and concrete not containing fibers clearly showed that FRC was less resistant to abrasion-erosion than concrete of the same aggregate type and water-cement ratio without fibers. The abrasion-erosion losses of the FRC were consistently higher than those of the concrete not containing fibers over wide ranges of water- cement ratio and hence compressive strength. Based on the results of laboratory tests and field performance experience, FRC is not recommended for use in new construction or repair of hydraulic structures where abrasion-erosion is a major concern.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 1981

Accession Number

ADA108988

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