Damage model for concrete‐like materials coupling cracking and friction, contribution towards structural damping: first uniaxial applications

Mechanics of Cohesive-frictional Materials Pub Date : 2000-11-01 DOI:10.1002/1099-1484(200011)5:8<607::AID-CFM108>3.0.CO;2-K

F. Ragueneau, C. Borderie, J. Mazars

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引用次数: 109

Abstract

This paper is concerned with the development of a damage model for concrete materials exhibiting a residual hysteretic behaviour at a fixed level of damage. This feature is obtained by coupling damage mechanics and friction phenomena. In its complete form, the damage variable by means of which the stiffness decrease is obtained in an orthotropic second-order tensor. Its evolution is governed by the tensile part of the strain tensor. The sliding between the crack lips is assumed to have a plasticity-like behaviour with non-linear kinematic hardening. The sliding stress depends on the level of damage. Such a model assumes the evolution of two yield surfaces: a fracture one and a sliding one. If unilateral effects need to be taken into account for cyclic loading analysis (crack closure modelling), the damage evolution remains isotropic. The effectiveness of this model in reproducing a part of damping when subjected to dynamic loading is exemplified through two structural case studies. Copyright © 2000 John Wiley & Sons, Ltd.

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类混凝土材料耦合开裂和摩擦的损伤模型，对结构阻尼的贡献:第一个单轴应用

本文关注的是混凝土材料在固定损伤水平下表现出残余迟滞行为的损伤模型的发展。这一特征是通过损伤力学和摩擦现象的耦合得到的。在其完备形式下，以正交各向异性二阶张量的形式得到了使刚度减小的损伤变量。其演化受应变张量的拉伸部分支配。假设裂纹唇间的滑动具有非线性运动硬化的类塑性行为。滑动应力取决于损伤程度。该模型假设两个屈服面:断裂面和滑动面。如果在循环加载分析(裂纹闭合模型)中需要考虑单边效应，则损伤演化仍然是各向同性的。通过两个结构实例研究，验证了该模型在动态加载下再现部分阻尼的有效性。版权所有©2000约翰威利父子有限公司

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mechanics of Cohesive-frictional Materials

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