Mesh objective simulations of large strain ductile fracture: A new nonlocal Johnson-Cook damage formulation for the Total Lagrangian Material Point Method
Version 2 2024-06-05, 04:00
Version 1 2022-02-01, 00:00
journal contribution
posted on 2024-06-05, 04:00 authored by Alban de VaucorbeilAlban de Vaucorbeil, VP Nguyen, TK MandalMesh objective simulations of large strain ductile fracture: A new nonlocal Johnson-Cook damage formulation for the Total Lagrangian Material Point Method
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Location
Amsterdam, The NetherlandsLanguage
EnglishPublication classification
C1 Refereed article in a scholarly journalJournal
Computer Methods in Applied Mechanics and EngineeringVolume
389Article number
ARTN 114388Pagination
1-29ISSN
0045-7825eISSN
1879-2138Publisher
ElsevierUsage metrics
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CONTACTDuctile fractureEngineeringEngineering, MultidisciplinaryFAILUREGradient enhanced nonlocalGRADIENT-ENHANCED DAMAGEIMPACTImpact fractureJohnson-Cook damageMathematicsMathematics, Interdisciplinary ApplicationsMechanicsPHASE-FIELDPhysical SciencesPLASTICITYScience & TechnologyTechnologyTotal-Lagrangian Material Point MethodVALIDATION4005 Civil engineering4016 Materials engineering4017 Mechanical engineering
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