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This article is cited in 1 scientific paper (total in 1 paper)
Micromechanical model of high-energy materials to the curing
K. A. Chekhonin Computer Centre of Far Eastern Branch RAS, Khabarovsk
Abstract:
During curing process of elastomeric composites residual stresses inevitably develop and play fn 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.
Key words:
elastomeric composites, technology stresses, Finite element analysis, Arruda-Boyce micromechanical model, Multi-scale modeling.
Received: 27.05.2022
Citation:
K. A. Chekhonin, “Micromechanical model of high-energy materials to the curing”, Dal'nevost. Mat. Zh., 22:1 (2022), 119–124
Linking options:
https://www.mathnet.ru/eng/dvmg475 https://www.mathnet.ru/eng/dvmg/v22/i1/p119
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