Affiliation:
1. Department of Metallurgy and Materials Engineering Katholieke Universiteit Leuven Leuven, Belgium
Abstract
Tests were performed to determine the effects of a fiber surface treatment on the interlaminar shear strength of dry and moist Twaron aramid-epoxy composites. Unidirectional specimens, some containing treated fibers and some containing untreated fibers, were subjected to elevated temperatures and humidities for periods of up to 14 months. Periodically, the interlaminar shear strength was measured and correlated with the moisture concentration at the plane of failure, i.e., near the midplane of the specimen. The data indicated that for dry specimens, the fiber surface treatment increased the in terlaminar shear strength by about 44% over specimens with untreated fibers. As the spec imens absorbed moisture, their strengths decreased, in inverse proportion to the moisture concentration at the plane of failure. For a given moisture concentration at the plane of failure, the specimens with treated fibers were stronger than those with untreated fibers. However this difference in strength decreased with increasing moisture concentrations.
Subject
Materials Chemistry,Polymers and Plastics,Mechanical Engineering,Mechanics of Materials,Ceramics and Composites
Reference8 articles.
1. Effects of Moisture on the Compressive and Interlaminar Shear Strengths of Aramid-Epoxy Composites
2. Moisture Absorption Characteristics of Aramid-Epoxy Composites
3. 1984. "Structured Test Method for Apparent Interlaminar Shear Strength of Parallel Fiber Composites by Short Beam Shear Method," ANSI/ASTM Standard D2344-81.
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