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Universal Meshes for the Simulation of Brittle Fracture and Moving Boundary Problems

Universal meshes have recently appeared in the literature as a compu- tationally efficient and robust paradigm for the generation of conforming simpli- cial meshes for domains with evolving boundaries. The main idea behind a univer- sal mesh is to immerse the moving boundary in a background mesh (the universal mesh), and to produce a mesh that conforms to the moving boundary at any given time by adjusting a few of elements of the background mesh. In this manuscript we present the application of universal meshes to the simulation of brittle fracturing. To this extent, we provide a high level description of a crack propagation algorithm and showcase its capabilities. Alongside universal meshes for the simulation of brit- tle fracture, we provide other examples for which universal meshes prove to be a powerful tool, namely fluid flow past moving obstacles. Lastly, we conclude the manuscript with some remarks on the current state of universal meshes and future directions.

preprint2015arXivOpen access
Maurizio M. ChiaramonteEvan S. GawlikHardik KabariaAdrian J. Lew
math.NA
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Open access4 authors1 topic
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Maurizio M. ChiaramonteEvan S. GawlikHardik KabariaAdrian J. Lew

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