A variational void coalescence model for ductile metals

Amir Siddiq; Roman Arciniega; Tamer El Sayed

doi:10.1007/s00466-011-0639-9

A variational void coalescence model for ductile metals

Amir Siddiq
, Roman Arciniega
, Tamer El Sayed

King Abdullah University of Science and Technology

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

We present a variational void coalescence model that includes all the essential ingredients of failure in ductile porous metals. The model is an extension of the variational void growth model by Weinberg et al. (Comput Mech 37:142-152, 2006). The extended model contains all the deformation phases in ductile porous materials, i.e. elastic deformation, plastic deformation including deviatoric and volumetric (void growth) plasticity followed by damage initiation and evolution due to void coalescence. Parametric studies have been performed to assess the model's dependence on the different input parameters. The model is then validated against uniaxial loading experiments for different materials. We finally show the model's ability to predict the damage mechanisms and fracture surface profile of a notched round bar under tension as observed in experiments.

Original language	English
Pages (from-to)	185-195
Number of pages	11
Journal	Computational Mechanics
Volume	49
Issue number	2
DOIs	https://doi.org/10.1007/s00466-011-0639-9
State	Published - Feb 2012
Externally published	Yes

Keywords

Constitutive model
Ductile fracture
Variational constitutive updates
Void coalescence

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10.1007/s00466-011-0639-9

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title = "A variational void coalescence model for ductile metals",

abstract = "We present a variational void coalescence model that includes all the essential ingredients of failure in ductile porous metals. The model is an extension of the variational void growth model by Weinberg et al. (Comput Mech 37:142-152, 2006). The extended model contains all the deformation phases in ductile porous materials, i.e. elastic deformation, plastic deformation including deviatoric and volumetric (void growth) plasticity followed by damage initiation and evolution due to void coalescence. Parametric studies have been performed to assess the model's dependence on the different input parameters. The model is then validated against uniaxial loading experiments for different materials. We finally show the model's ability to predict the damage mechanisms and fracture surface profile of a notched round bar under tension as observed in experiments.",

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AU - Arciniega, Roman

AU - El Sayed, Tamer

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AB - We present a variational void coalescence model that includes all the essential ingredients of failure in ductile porous metals. The model is an extension of the variational void growth model by Weinberg et al. (Comput Mech 37:142-152, 2006). The extended model contains all the deformation phases in ductile porous materials, i.e. elastic deformation, plastic deformation including deviatoric and volumetric (void growth) plasticity followed by damage initiation and evolution due to void coalescence. Parametric studies have been performed to assess the model's dependence on the different input parameters. The model is then validated against uniaxial loading experiments for different materials. We finally show the model's ability to predict the damage mechanisms and fracture surface profile of a notched round bar under tension as observed in experiments.

KW - Constitutive model

KW - Ductile fracture

KW - Variational constitutive updates

KW - Void coalescence

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DO - 10.1007/s00466-011-0639-9

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VL - 49

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JO - Computational Mechanics

JF - Computational Mechanics

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ER -

A variational void coalescence model for ductile metals

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Keywords

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