Morphological Studies in Novel Liquid Rubber Modified Epoxies

International Journal of Engineering Research and Applications Pub Date : 2017-07-01 DOI:10.9790/9622-0706064448

Dheeraj Gunwant, Muhammad Ghulam Haider Zaidi, P. Sah

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Abstract

The aim of this article is to present morphological studies on the tensile fractured specimens of novel liquid rubber obtained from the pyrolysis of scrap rubber. Such a study is crucial for gaining useful insight into the toughening mechanisms existing in rubber modified systems. A DGEBA based epoxy resin was first modified with varying concentrations (0-15 wt. %) of the liquid rubber. Dogbone shaped specimens of the cast plaques of the modified epoxies were tested under uniaxial tensile loading. The fracture surface was elucidated with the help of scanning electron microscopy (SEM). It was observed that biphasic morphology characterized with continuous epoxy phase and microvoids distributed throughout the epoxy domain develop in the modified epoxies. Cavitation of rubber particles under crack tip stresses is the reason behind development of these microvoids. The diameter of these microvoids were analyzed using the image analysis technique and was observed to increase with the concentration of rubber. Prevalent toughening mechanisms were visualized in the SEM micrographs necessary for the development of tougher and more ductile rubber modified epoxy systems.

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新型液体橡胶改性环氧树脂的形态研究

本文对废橡胶热解制备的新型液态橡胶的拉伸断裂试样进行了形态学研究。这样的研究对于深入了解橡胶改性体系中存在的增韧机制至关重要。首先用不同浓度(0-15 wt. %)的液体橡胶对DGEBA基环氧树脂进行改性。在单轴拉伸载荷作用下，对改性环氧树脂的犬骨形铸斑进行了试验。利用扫描电镜(SEM)对断口进行了分析。结果表明，改性后的环氧树脂具有连续的环氧相和遍布环氧畴的微孔的双相形貌。橡胶颗粒在裂纹尖端应力作用下产生的空化现象是这些微孔形成的原因。利用图像分析技术分析了这些微孔的直径，并观察到它们随着橡胶浓度的增加而增大。普遍的增韧机制在SEM显微图中可见，这是开发更坚韧和更具延展性的橡胶改性环氧体系所必需的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Engineering Research and Applications

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