材料科学
复合材料
环氧树脂
玻璃纤维
复合数
延展性(地球科学)
刚度
极限抗拉强度
纤维
压力(语言学)
纤维增强塑料
蠕动
语言学
哲学
作者
Amanda McBride,Samuel Turek,Arash E. Zaghi,Kelly A. Burke
出处
期刊:Polymers
[Multidisciplinary Digital Publishing Institute]
日期:2017-04-23
卷期号:9 (4): 151-151
被引量:43
摘要
While conventional fiber-reinforced polymer composites offer high strength and stiffness, they lack ductility and the ability to absorb energy before failure. This work investigates hybrid fiber composites for structural applications comprised of polymer, steel fiber, and glass fibers to address this shortcoming. Varying volume fractions of thin, ductile steel fibers were introduced into glass fiber reinforced epoxy composites. Non-hybrid and hybrid composite specimens were prepared and subjected to monolithic and half-cyclic tensile testing to obtain stress-strain relationships, hysteresis behavior, and insight into failure mechanisms. Open-hole testing was used to assess the vulnerability of the composites to stress concentration. Incorporating steel fibers into glass/epoxy composites offered a significant improvement in energy absorption prior to failure and material re-centering capabilities. It was found that a lower percentage of steel fibers (8.2%) in the hybrid composite outperformed those with higher percentages (15.7% and 22.8%) in terms of energy absorption and re-centering, as the glass reinforcement distributed the plasticity over a larger area. A bilinear hysteresis model was developed to predict cyclic behavior of the hybrid composite.
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