Void Growth Simulations in Single Crystals

Peter McHugh

Void Growth Simulations in Single Crystals

Peter McHugh

Mechanical Engineering

University of Galway

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

66 Citations (Scopus)

Abstract

The growth and coalescence of microvoids leading to ductile failure in single crystals is simulated using the finite element method. Finite deformation, rate dependent, crystal plasticity theory is used in the context of 2D plane strain models. The details of material failure at the microscale and macroscale are investigated under variation in a range of parameters including void volume fraction, loading state and lattice structure and orientation. Remeshing is used to improve accuracy of results. Results are compared with those produced by models based on other constitutive theories and experimental observation.

Original language	English (Ireland)
Pages (from-to)	115-121
Number of pages	7
Journal	Computational Mechanics
Volume	20
Issue number	1-2
Publication status	Published - 1 Jan 1997

Authors (Note for portal: view the doc link for the full list of authors)

Authors
O'Regan, T.L., Quinn, D.F., Howe, M.A., McHugh, P.E.

Cite this

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abstract = "The growth and coalescence of microvoids leading to ductile failure in single crystals is simulated using the finite element method. Finite deformation, rate dependent, crystal plasticity theory is used in the context of 2D plane strain models. The details of material failure at the microscale and macroscale are investigated under variation in a range of parameters including void volume fraction, loading state and lattice structure and orientation. Remeshing is used to improve accuracy of results. Results are compared with those produced by models based on other constitutive theories and experimental observation.",

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AB - The growth and coalescence of microvoids leading to ductile failure in single crystals is simulated using the finite element method. Finite deformation, rate dependent, crystal plasticity theory is used in the context of 2D plane strain models. The details of material failure at the microscale and macroscale are investigated under variation in a range of parameters including void volume fraction, loading state and lattice structure and orientation. Remeshing is used to improve accuracy of results. Results are compared with those produced by models based on other constitutive theories and experimental observation.

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Void Growth Simulations in Single Crystals

Abstract

Authors (Note for portal: view the doc link for the full list of authors)

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