Quasi-static compressive behaviour of epoxy composites reinforced with crumb rubber

Polymers and Polymer Composites Pub Date : 2023-02-24 DOI:10.1177/09673911231158995

K. Shahapurkar, M. Kiran, M. Alamir, V. Tirth, I. Alarifi, Venkatesh Chenrayan

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引用次数: 2

Abstract

Quasi static compressive response of crumb rubber-epoxy composites was examined by varying the crumb rubber composition (0, 10, 20 and 30 vol.%). All the composites, irrespective of the strain rates, depict elastic regions tailed by a wide plateau area that is credited with the densification of rubber particulates. Higher strains to failure of composites were revealed as compared with neat epoxy signifying higher energy absorption ability of constituents. The modulus of elasticity of composites was noted to be lower than neat epoxy specimens, irrespective of the strain rates. Irrespective of strain rates, the strength of all the composites were inferior to neat epoxy specimens. Energy absorption of EC-30 was higher compared to EC-20 and EC-10 and noted to be increased in the range of 6–14% for 0.1 mm/min strain rate while it increases in the range of 5–9% for 0.01 mm/min strain rate, respectively. Rubber-toughening mechanism was credited with the increase in energy absorption of composites. Higher energy absorption of composites was mainly due to higher strain realisation indicating more deformation ability. Fracture features of specimens were analysed by scanning electron microscope.

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橡胶屑增强环氧复合材料的准静态压缩性能

通过改变颗粒橡胶的组分(0、10、20和30体积%)，研究了颗粒橡胶-环氧复合材料的准静态压缩响应。所有的复合材料，无论应变率如何，都描绘了弹性区域，后面是一个广阔的高原区域，这被认为是橡胶颗粒致密化的原因。与纯环氧树脂相比，复合材料的破坏应变更高，表明组分的能量吸收能力更高。无论应变速率如何，复合材料的弹性模量都低于纯环氧树脂样品。在不考虑应变速率的情况下，所有复合材料的强度都低于纯环氧树脂样品。EC-30的吸能比EC-20和EC-10高，0.1 mm/min应变速率下吸能增加6-14%，0.01 mm/min应变速率下吸能增加5-9%。橡胶增韧机制被认为是复合材料能量吸收增加的原因。复合材料的高能量吸收主要是由于更高的应变实现，这意味着更强的变形能力。用扫描电镜分析了试样的断裂特征。

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Polymers and Polymer Composites

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