Modelling of stress softening in elastomeric materials: foundations of simple theories

Kazakeviciute-Makovska R; Kacianauskas R

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Modelling of stress softening in elastomeric materials: foundations of simple theories

机译：弹性体材料中的应力软化建模：简单理论的基础

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This work is concerned with formulation of constitutive relations for materials exhibiting the stress softening phenomenon (known as the Mullins effect) typical observed in elastomeric and other amorphous materials during loading-reloading cycles. It is assumed that microstructural changes in such materials during the deformation process can be represented by a single scalar-valued softening variable whose evolution is accompanied by microforces satisfying their own law of balance, besides the classical laws of mechanics underlying macroscopic deformation of a material. The constitutive equations are then derived in consistency with thermodynamics of irreversible processes with the restriction to purely mechanical theory. The general form of the derived constitutive equations is subsequently simplified through introduction of additional assumptions leading to various models of the stress softening phenomenon. As an illustration of the general theory, it is shown that the so-called pseudo-elastic model proposed in the literature may be derived without an ad hoc postulate of the variational principle. (C) 2004 Elsevier Ltd. All rights reserved.

机译：这项工作涉及本构关系的制定，该本构关系的材料应具有应力软化现象（称为穆林斯效应），这种现象通常在弹性材料和其他无定形材料的加载-加载循环中观察到。假定在这种材料的形变过程中，其微观结构变化可以用一个标量值的软化变量表示，其演化伴随着满足其自身平衡定律的微力，除了经典的力学定律是材料的宏观形变。然后，在纯机械理论的限制下，本构方程与不可逆过程的热力学一致地得到。随后通过引入导致应力软化现象的各种模型的附加假设，简化了导出的本构方程的一般形式。作为一般理论的一个说明，它表明可以在没有临时假设变分原理的情况下得出文献中提出的所谓伪弹性模型。（C）2004 Elsevier Ltd.保留所有权利。

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《Mechanics research communications》 |2004年第4期|共9页
作者
Kazakeviciute-Makovska R; Kacianauskas R;
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正文语种 eng
中图分类力学;
关键词
elastomers; stress softening; Mullins effect; DAMAGE MODEL; RUBBER; SOLIDS;

机译：弹性体;应力软化;莫林效应;损伤模型;橡胶;固体;
入库时间 2022-08-18 11:50:45

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1. Modelling of stress softening in elastomeric materials: foundations of simple theories [J] . Kazakeviciute-Makovska R, Kacianauskas R Mechanics research communications . 2004,第4期

机译：弹性体材料中的应力软化建模：简单理论的基础
2. Constitutive model for stretch-induced softening of the stress-stretch behavior of elastomeric materials [J] . H.J. Qi, M.C. Boyce Journal of the Mechanics and Physics of Solids . 2004,第10期

机译：拉伸诱发的弹性体材料应力-拉伸行为的本构模型
3. On Pseudo-Elastic Models for Stress Softening in Elastomeric Balloons [J] . Rasa Kazakeviciute-Makovska Computers, Materials & Continua . 2010,第1期

机译：弹性球囊应力软化的伪弹性模型
4. Modeling of stress softening and filler induced hysteresis of elastomer materials [C] . M. Klueppel, J. Meier, M. Daemgen European Conference on Constitutive Models for Rubber . 2005

机译：应力软化和填料诱导弹性体材料滞后的建模
5. Extracting material response from simple mechanical tests on hardening-softening-hardening viscoplastic solids. [D] . Mohan, Nisha. 2014

机译：从简单的机械测试中提取材料对硬化-硬化-硬化的粘塑性固体的响应。
6. On the Rule of Mixtures for Predicting Stress-Softening and Residual Strain Effects in Biological Tissues and Biocompatible Materials [O] . Alex Elías-Zúñiga, Karen Baylón, Inés Ferrer, 2014

机译：关于预测生物组织和生物相容性材料中的应力软化和残余应变效应的混合物规则
7. Certain Simple, Unsolvable Problems of Group Theory. V 29,3029Parts I, II, III and IV have appeared in Series A, 57, Nos. 3 and 5; 58, Nos. 2 and 5 of these Proceedings, as well as Indag. Math., 16, Nos. 3 and 5 (1954); 17, Nos. 2 and 5 (1955).In Part I, page 234, the ninth and tenth lines following the displayed material, for both occurrences of A read D and for both occurrences of B read E: In part II, page 497, for all occurrences of M in Diagrams A and D read C. In Part IV, page 574, the third displayed line, for zαiLread z―αiL. 19).30The proof of the unsolvability of the word problem contained in this and subsequent paper is not contained in the dissertation Several simple unsolvable problems of group theory related to the word problem. (See footnote 1 of Part I.) Our proof was finally completed during the period 1954-56 while in residence at the Institute for Advanced Study. We were supported in 1954-55 directly by the Institute and in 1955-56 by National Science Foundation contract G-1974. Certain improvements were evolved ans preparations for publication were completed while the author held a Fulbright grant to the University of Oslo.Our thanks are due to Professor Kurt Gödel for his kind encouragement in these matter; certain related problems for study he has suggested we hope to deal with later. When an earlier version of Lemmas 30 and 31 was explained at a colloquium at the University of Michigan, August 3, 1956, Professor Roger Lyndon suggested an improvement which is incorporated in our present version. We are indeed indebted to Dr. John Addison and Dr. Michael Rabin for checking many of the new details during July of 1956.) [O] . Boone William W. 1957

机译：群体理论的某些简单，不可解决的问题。 V 29,3029 I，II，III和IV部分出现在A系列57、3和5号中； 58，第2和5号程序，以及Indag。 Math。，16，Nos 3 and 5（1954）; 》，第17卷，第2期和第5期（1955年）。在第一部分，第234页中，显示的材料之后的第九行和第十行，出现A读D和出现B都读E：在第二部分，第497页，对于图A和D中所有出现的M，请读C。在第Ⅳ部分，第574页中，第三行显示为zαiLreadz-αiL。 19）.30本论文及后续论文中所包含的单词问题的不可解性的证明不包含在本文中。（请参阅第I部分的脚注1。）我们的证明终于在1954-56年期间居住在高级研究所期间完成了。该研究所在1954-55年间直接为我们提供了支持，在1955-56年间得到了美国国家科学基金会的G-1974合同的支持。在作者获得奥斯陆大学富布赖特奖学金的同时，对出版物的改进和准备工作也有所进展。感谢库尔特·哥德尔教授在此方面的大力鼓励。他建议我们研究一些相关的问题，希望以后再解决。 1956年8月3日，在密歇根大学的一个座谈会上解释了Lemmas 30和31的早期版本时，Roger Lyndon教授建议进行改进，并将其纳入当前版本。我们确实要感谢John Addison博士和Michael Rabin博士在1956年7月检查了许多新细节。）
8. Instability in Simple Shear Deformation of Stress-Softening Materials [R] . Burns, T. J., Trucano, T. G. 1982

机译：应力软化材料简单剪切变形的不稳定性

Modelling of stress softening in elastomeric materials: foundations of simple theories

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