用累积分布函数描述聚合物复合材料疲劳敏感性曲线及临界状态过渡

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frattura ed Integrita Strutturale Pub Date : 2022-12-21 DOI:10.3221/igf-esis.63.09

O. Staroverov, A. Mugatarov, A. Yankin, V. Wildemann

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引用次数: 3

摘要

本文提出了一种描述复合材料在循环加载过程中力学性能退化的新模型。该模型基于使用的累积分布函数。考虑了威布尔概率分布规律和贝塔分布。推导了疲劳敏感系数与初循环暴露的关系。提出了用损伤值函数导数定义损伤累积阶段边界的方法。利用实验数据得到模型参数。计算确定系数。具有较高的描述能力。总结了用累积分布函数近似试验数据进行初循环暴露后力学特性减小的合理性和便捷性。

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Description of Fatigue Sensitivity Curves and Transition to Critical States of Polymer Composites by Cumulative Distribution Functions

In this paper, a novel model is presented to describe the composite mechanical properties degradation during cyclic loading. The model is based on cumulative distribution functions using. Weibull probability distribution law and beta distribution are considered. The dependences of the fatigue sensitivity coefficient on the preliminary cyclic exposure are derived. The damage value function derivative using is proposed to define damage accumulation stages boundaries. Model parameters are obtained using experimental data. Determination coefficients are calculated. A high descriptive capability is noted. Rationality and expediency of using cumulative distribution functions as the approximation of experimental data on mechanical characteristics reduction after preliminary cyclic exposure is concluded.

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