4.7 Article

The cohesive zone model: advantages, limitations and challenges

Journal

ENGINEERING FRACTURE MECHANICS
Volume 69, Issue 2, Pages 137-163

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/S0013-7944(01)00083-2

Keywords

cohesive process zone; concrete; crack

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This paper reviews the cohesive process zone model, a general model which can deal with the nonlinear zone ahead of the crack tip-due to plasticity or microcracking-present in many materials. Furthermore, the cohesive zone model is able to adequately predict the behaviour of uncracked structures, including those with blunt notches, and not only the response of bodies with cracks-a. usual drawback of most fracture models. The cohesive zone model, originally applied to concrete and cementitious composites, can be used with success for other materials. More powerful computer programs and better knowledge of material properties may widen its potential field of application. In this paper, the cohesive zone model is shown to provide good predictions for concrete and for different notched samples of a glassy polymer (PMMA) and some steels. The paper is structured in two main sections: First, the cohesive model is reviewed and emphasis is on determination of the softening function, an essential ingredient of the cohesive model, by inverse analysis procedures. The second section is devoted to some examples of the predictive capability of the cohesive zone model when applied to different materials; concrete, PMMA and steel. (C) 2001 Elsevier Science Ltd. All rights reserved.

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