Influence of damage and disorder on structural response of quasi-brittle materials

Mechanics of Cohesive-frictional Materials Pub Date : 2000-05-18 DOI:10.1002/(SICI)1099-1484(200005)5:4<255::AID-CFM88>3.0.CO;2-D

Alberto Carpinteri, Francesco Ciola

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引用次数: 1

Abstract

The tensile mechanical behaviour of quasi-brittle materials, such as concrete, has been the subject of numerous studies from which there has unequivocally emerged the centrality of the cracking phenomenon. The present study highlights this aspect by evaluating the tensile structural response of an infinite plate with an infinite set of collinear cracks that are spaced at a constant distance apart and are of variable length according to a distribution of self-similarity. The first part of this paper describes the general features of the method of the pseudo-tractions used to determine the stress-intensity factors, which is based on the application of the principle of superposition. Subsequently, by means of a numerical simulation, in which account is taken of crack propagation and coalescence (excluding overlapping), the link is obtained between critical tensile stress and the incremental displacement due to the damage present in the material, accounting for typical aspects of structural response, such as the strain-softening phenomenon. Copyright © 2000 John Wiley & Sons, Ltd.

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损伤和无序对准脆性材料结构响应的影响

混凝土等准脆性材料的拉伸力学行为一直是众多研究的主题，从这些研究中明确地发现了开裂现象的中心性。本研究通过评估具有无限组共线裂纹的无限板的拉伸结构响应来突出这一方面，这些裂纹间隔恒定距离，并且根据自相似性分布具有可变长度。本文第一部分介绍了应用叠加原理确定应力强度因子的拟牵引法的一般特点。随后，通过考虑裂纹扩展和聚结（不包括重叠）的数值模拟，获得了临界拉应力和材料中存在的损伤引起的增量位移之间的联系，说明了结构响应的典型方面，如应变软化现象。版权所有©2000 John Wiley&；有限公司。

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Mechanics of Cohesive-frictional Materials

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