A micromechanically-based model for predicting dynamic damage evolution in ductile polymers

David H. allen; Chad R. Searcy

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A micromechanically-based model for predicting dynamic damage evolution in ductile polymers

机译：基于微机械的模型预测延性聚合物中动态损伤的演变

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A new micromechanicaly-based viscoelastic cohesive zone model is proposed that extends the features of a quasi- static model previously developed by the authors. A statistical distribution of fibril radii is assumed, and a critical fibril radius is introduced as a fracture criterion. Results are presented for various loading rates, and it is found that this dynamic damage model is both physical motivated and capable of modeling complex phenomena in cohesive zones.

机译：提出了一种新的基于微力学的粘弹性内聚区模型，该模型扩展了作者先前开发的准静态模型的功能。假定原纤维半径的统计分布，并引入临界原纤维半径作为断裂标准。给出了各种载荷率的结果，并且发现该动态损伤模型是物理动机的，并且能够对内聚区中的复杂现象进行建模。

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来源
《Mechanics of materials》 |2001年第3期|p.177-184|共8页
作者
David H. allen; Chad R. Searcy;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
Dynamic fracture; Interfaces; Cohesive elements;

机译：动态断裂;接口;内聚元素;

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A micromechanically-based model for predicting dynamic damage evolution in ductile polymers

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