Splitting method and hybrid-Trefftz formulation for multisite damage analysis in two-dimensional domains

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• 作者：Higor Sé ; rgio Dantas de Argô ; lo^a ; ^b ; ^{higorsergio@ufs.br} ; ^{higorsergio@sc.usp.br}Author Vitae ; Sergio Persival Baroncini Proenç ; a^c ; ^{persival@sc.usp.br}Author Vitae
• 关键词：Splitting method ; Hybrid-Trefftz formulation ; Fracture mechanics ; Multisite damage analysis
• 刊名：International Journal of Solids and Structures
• 出版年：2017
• 出版时间：1 January 2017
• 年：2017
• 卷：104-105
• 期：Complete
• 页码：50-64
• 全文大小：3304 K
• 卷排序：104

文摘

The aim of this paper is to present a new strategy for multiple-site damage analysis by combining the splitting method and hybrid-Trefftz stress formulation in a two-dimensional domain. The first is a decomposition method originally conceived to obtain the solution of a cracked solid. Accordingly, the given problem is split into three subproblems: an uncracked global problem (PG(0)), a local problem (PL(k)) considering a single crack located in a reduced domain and a global problem (PG(k)) aiming to account for the relative interaction effects among all the cracks. Most subproblems are independent and the solution results from a non-iterative strategy, which is one of the main benefits of this method. The hybrid-Trefftz stress formulation is a non-conventional finite element method where stresses and displacements are approximated, independently, in the domain and boundary of the element, respectively. The stress fields are hereby approximated by a basis function that solves the Navier equation and includes analytical fracture mechanics functions, so that the values of stress intensity factors are computed from the solution of the linear system. The hybrid-Trefftz formulation is used in the local problem PL(k) of the splitting method, therefore improving the performance of the method and providing accurate solutions with very coarse meshes. In conclusion, it is shown through the numerical examples that the splitting method and hybrid-Trefftz formulation framework hereby proposed allows conducing accurate analysis. Once exploring a parallel processing, taking advantage of the independence of each subproblem, the framework can be extended to consider different scenarios of multisite cracked solids with a low computation cost.