Restrained crack widening in mode I crack propagation for mortar and concrete

A. Turatsinze, A. Bascoul
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引用次数: 16

Abstract

Microscopical observations and macroscopical investigations of the crack propagation process have been carried out. They give a new insight into the fracture process zone, leading one to presume that during the crack propagation the crack opening is restrained. So, the crack opening cannot increase without an energy dissipation that has to be added to the one from the crack propagation. Generally, measurements of fracture energy per unit of crack surface give rise to size dependent values for mortar and concrete. We propose a simple model that takes into account the energy dissipated by restrained crack widening (RCW), with the aim to verify if it can explain the size dependence on the energy dissipated per unit of crack surface. The theoretical predictions from the proposed model and the experimental dissipated energy per unit of crack surface obtained by means of RILEM TC-50 procedure are in good agreement. So, size dependence could be mainly explained through the concept of RCW.

砂浆和混凝土I型裂缝扩展中的约束裂缝加宽
对裂纹扩展过程进行了微观观察和宏观研究。它们对断裂过程区提供了新的见解,使人们认为在裂纹扩展过程中,裂纹开口受到限制。因此,如果没有必须添加到裂纹扩展的能量耗散中的能量耗散,裂纹开口就无法增加。通常,测量每单位裂缝表面的断裂能会得出砂浆和混凝土的尺寸相关值。我们提出了一个简单的模型,该模型考虑了约束裂纹扩展(RCW)耗散的能量,目的是验证它是否可以解释尺寸对单位裂纹表面耗散能量的依赖性。所提出的模型的理论预测与通过RILEM TC-50程序获得的单位裂纹表面的实验耗散能量非常一致。因此,尺寸依赖性主要可以通过RCW的概念来解释。
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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