A FINITE-ELEMENT ANALYSIS OF CONFIGURATIONAL STABILITY AND FINITE GROWTH OF BUCKLING DRIVEN DELAMINATION

被引:36
作者
NILSSON, KF [1 ]
GIANNAKOPOULOS, AE [1 ]
机构
[1] ROYAL INST TECHNOL,DEPT SOLID MECH,S-10044 STOCKHOLM,SWEDEN
关键词
D O I
10.1016/0022-5096(95)00052-K
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A theoretical study of a buckling-driven, initially circular, delaminated thin film loaded in equal bi-axial compression is presented. The main objective of this investigation is to study the configurational instability phenomena frequently observed for thin debonded coatings loaded in compression. The analyses are done with the aid of a kinematically non-linear finite element formulation of the plate problem to model the him, supplemented with a method to account automatically for the redistribution of the stress field as the shape of the advancing delamination is changing. By this procedure, not only the shape of the delaminated film but also the stability properties of the growth follow automatically. The configurational stability properties of the initially circular delamination are assessed by slightly perturbing the delamination front. The configurational instability is strongly related to the fracture mode dependence in the crack growth law. Finite growth of the buckling-driven thin film was also investigated. A load perturbation was employed as well as a front perturbation. It was found that the two perturbation methods can result in quite different shapes of the advancing buckled thin film. A few examples of extensive growth are also presented, and in some cases it was observed that a part of the delamination front may start tunnelling in the interface.
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页码:1983 / 2021
页数:39
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