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Article Dans Une Revue Modeling, Measurement and Control Année : 2008

Simulation of the Taylor impact test and analysis of damage evolution using a nucleation and growth based approach

Résumé

Computational modeling of the Taylor impact test, using OFHC copper rods are carried out for two impact velocities (260 m/s and 365 m/s). The aim of this work is to demonstrate the efficiency of the recently proposed material model for dynamic plasticity and failure for metals. This model combines the use of a damage approach based on void nucleation and growth, with the Mechanical Threshold Stress (MTS) model for the evolution of the flow stress in isotropic plasticity. The proposed approach is implemented in the finite element code ABAQUS/Explicit via a user material subroutine and the symmetric Taylor impact test, using copper rods, is simulated. The predicted results are compared to the experimental results reported in the open literature and good agreement is found for both shape change and damage distribution.
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Dates et versions

hal-00591015 , version 1 (22-09-2016)

Identifiants

  • HAL Id : hal-00591015 , version 1

Citer

L. Campagne-Lambert, Loïc Daridon, Omar Oussouaddi, Saïd Ahzi, X. Sun. Simulation of the Taylor impact test and analysis of damage evolution using a nucleation and growth based approach. Modeling, Measurement and Control, 2008, 77 (3-4), pp.19-35. ⟨hal-00591015⟩
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