大体积填充橡胶试样疲劳过程中热累积温度和损伤场的模拟

C. Rodas, Q. Guo, F. Zaïri, Xing-lin Guo, P. Charrier
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引用次数: 0

摘要

本文采用有限应变热粘弹损伤模型来预测橡胶试样在疲劳状态下的循环热-力学响应。通过对含不同炭黑量的薄橡胶试样在不同最小拉伸水平下循环加载的应力软化、迟滞和耗散热的实验观察,对模型参数进行了识别和验证。讨论了橡胶试样在疲劳过程中热积累温度和损伤场的预测演变规律。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modelling of the heat build-up temperature and damage fields in bulk filled-rubber samples during fatigue
In the present work, a finite strain thermo-viscoelastic-damage model is used to predict the cyclic thermo-mechanical response of bulk rubber samples during fatigue. The model parameters were identified and verified using experimental observations on stress-softening, hysteresis and dissipative heating obtained in thin rubber samples containing different amounts of carbon-black and cyclically loaded under different minimum stretch levels. Predicted evolutions of the heat build-up temperature and damage fields in bulk rubber samples during fatigue are discussed.
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