Evaluation of fracture mechanics parameters for a general corner using a weight function method

Autor:	G. K. Gospodinov, Z. B. Petkov
Rok vydání:	1992
Předmět:	Weight function Discretization Antisymmetric relation Mechanical Engineering Traction (engineering) Mathematical analysis Computational Mechanics Fracture mechanics Geometry Boundary element method Finite element method Stress intensity factor Mathematics
Zdroj:	Acta Mechanica. 93:145-155
ISSN:	1619-6937 0001-5970
DOI:	10.1007/bf01182580
Popis:	The weight function method (WFM) has been used recently as a reliable tool for evaluation of fracture mechanics parameters, where cracks are represented by zero opening traction free surfaces. The purpose of this paper is to extend this technique to general opening corner problem. The two dimensional singular fields for displacements and stresses are introduced in terms of generalized Bueckner's strength. By means of eigenvalue analysis the stress intensity factors (SIF) are then formulated after appropriate splitting the regular stress and displacement fields into symmetric and antisymmetric modes. Using Betti's reciprocal theorem, a new expression in a more general closed form is derived for Bueckner's strength consisten with the given nonzero opening case. The potentiality of the method is demonstrated by a numerical example for α=π/2 corner problem. The stress intensity factor for the symmetric mode is evaluated by WFM and by a simple collocation procedure using both boundary element (BE) and finite element (FE) discretization.
Databáze:	OpenAIRE
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