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Implicit 2D Numerical Simulation of Materials Submitted to High Strain Rates Including Fracture

Jeunechamps, Pierre Paul / Ponthot, Jean Philippe

In this paper, we present a general consistent numerical formulation able to take into account strain rate and thermal effects of the material behavior. A thermomechanical implicit approach for element erosion to model material failure is also presented. The numerical model will be illustrated by applications both from the metal forming and the impact domain. All these physical phenomena have been included in an implicit dynamic oriented object finite element code (implemented at LTAS-MN²L, University of Liege, Belgium) named Metafor.

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Implicit 2D Numerical Simulation of Materials Submitted to High Strain Rates Including Fracture

Jeunechamps, Pierre Paul / Ponthot, Jean Philippe

In this paper, we present a general consistent numerical formulation able to take into account strain rate and thermal effects of the material behavior. A thermomechanical implicit approach for element erosion to model material failure is also presented. The numerical model will be illustrated by applications both from the metal forming and the impact domain. All these physical phenomena have been included in an implicit dynamic oriented object finite element code (implemented at LTAS-MN²L, University of Liege, Belgium) named Metafor.

Implicit 2D Numerical Simulation of Materials Submitted to High Strain Rates Including Fracture

Jeunechamps, Pierre Paul / Ponthot, Jean Philippe

In this paper, we present a general consistent numerical formulation able to take into account strain rate and thermal effects of the material behavior. A thermomechanical implicit approach for element erosion to model material failure is also presented. The numerical model will be illustrated by applications both from the metal forming and the impact domain. All these physical phenomena have been included in an implicit dynamic oriented object finite element code (implemented at LTAS-MN²L, University of Liege, Belgium) named Metafor.

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Titel:

Implicit 2D Numerical Simulation of Materials Submitted to High Strain Rates Including Fracture

Beteiligte:

Jeunechamps, Pierre Paul (Autor:in) / Ponthot, Jean Philippe (Autor:in)

Erschienen in:

Advances in Engineering Plasticity XI, AEPA, Asia-Pacific Symposium on Advances in Engineering Plasticity and Its Applications, 11 ; 80-84

Key Engineering Materials ; 535-536

Erscheinungsdatum:

2013

Format / Umfang:

5 Seiten

ISSN:

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.535-536.80

Medientyp:

Aufsatz (Konferenz)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Finite-Elemente-Methode , Bruch , numerische Simulation , numerische Modellierung , Materialverhalten , Verspannung , Metalle , Belgien

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