材料科学
复合材料
复合数
韧性
尺寸
聚合物
环氧树脂
玻璃纤维
联锁
结构工程
艺术
工程类
视觉艺术
作者
Carol Winnifred Rodricks,Israel Greenfeld,Bodo Fiedler,H. Daniel Wagner
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2022-01-24
卷期号:15 (3): 890-890
被引量:6
摘要
The fibre-matrix interface plays an important role in the overall mechanical behaviour of a fibre-reinforced composite, but the classical approach to improving the interface through chemical sizing is bounded by the materials' properties. By contrast, structural and/or geometrical modification of the interface may provide mechanical interlocking and have wider possibilities and benefits. Here we investigate the introduction of polymer beads along the interface of a fibre and validate their contribution by a single fibre fragmentation test. Using glass fibres and the same epoxy system for both matrix and beads, an increase of 17.5% is observed in the interfacial shear strength of the beaded fibres compared to fibres with no polymer beads. This increase should lead to a similar improvement in the strength and toughness of a beaded fibre composite when short fibres are used. The beads were also seen to stabilise the fragmentation process of a fibre by reducing the scatter in fragment density at a given strain. A case could also be made for a critical beads number-4 beads in our experimental system-to describe interfacial shear strength, analogous to a critical length used in fibre composites.
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