Digital Repository, CP2006

Font Size: 
Computational Simulation of Crack Propagation Trajectories by Means of the Contour Element Method
J. Jackiewicz, H. Holka

Last modified: 2013-03-12

Abstract


The article discusses a contour element method applied to numericalsimulations of crack propagation trajectories in elastic structures. Because theboundary integral equation degenerates for a body with two crack-surfaces occupyingthe same location one of the forms of the displacement discontinuity method isimplemented. According to the implemented method, resultant forces and dislocationdensities, which are placed at mid-nodes of contour segments on one of the cracksurfaces, are characterized by the indirect boundary integral equation. Contrarily tointernal crack problems, for edge crack problems an edge-discontinuous element isused at the intersection between a crack and an edge to avoid a common node at theintersection. New numerical formulations that are built up on analytical integration areimplemented. Therefore, all regular and singular integrals are evaluated onlyanalytically. Tractions and resultant forces at a mid-node of any contour segment areregularized by a nonlocal characterization function. Hence, values of their componentsare obtained from the modified form of Somigliana’s identity that embraces nonlocalelements and standard elements of kernel matrices used in the boundary elementanalysis.

Full Text: PDF