高能材料固化的微观力学模型

Dal'nevostochnyi Matematicheskii Zhurnal Pub Date : 2022-06-27 DOI:10.47910/femj202212

K. A. Chekhonin

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引用次数: 0

摘要

在弹性体复合材料的固化过程中，残余应力不可避免地产生，并对复合材料的最终力学性能起着重要作用。通过修正Arruda-Boyce模型和代表性体积单元来预测基体中的工艺应力，更好地理解温度、固化程度变化和机械污渍等宏观因素对微观应力的影响。

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Micromechanical model of high-energy materials to the curing

During curing process of elastomeric composites residual stresses inevitably develop and play an important role in the final mechanical properties of composites. This work at a better understanding the effects of macro-level factors, including temperature, degree of cure variation and mechanical stains on micro-scale stresses with modification the Model Arruda-Boyce, and a Representative Volume Element to predict technology stresses in matrix.

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Dal'nevostochnyi Matematicheskii Zhurnal

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