Parallel Simulations of Dynamic Fracture Using Extrinsic Cohesive Elements
Journal of Scientific Computing (J. Sci. Comp.) 2009
Publication Type: Paper
Repository URL: AdpCoh2
Abstract
In this paper, we present a novel parallel implementation of
extrinsic initially rigid cohesive elements in an explicit finite
element solver designed for the simulation of dynamic fracture
events. The implementation is based on activating instead of
inserting the cohesive elements and uses ParFUM, a parallel
framework specifically developed for simulations involving
unstructured meshes. Aspects of the parallel implementation are
described, along with an analysis of its performance on 1 to 512
processors. Important cache effects and communication costs are
included in this analysis. The implementation is validated by
simulating the trapping of a crack along an inclined material
interface.
TextRef
Isaac Dooley and Sandhya Mangala and Laxmikant Kale and Philippe Geubelle
Parallel Simulations of Dynamic Fracture Using Extrinsic Cohesive Elements
Journal of Scientific Computing, Vol 39 Num 1
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