Validation of metal plasticity and fracture models through numerical simulation of high velocity perforation

•New BLV data for AA2024-T3(51) circular plates were experimentally obtained.•Valid plasticity and fracture models are of equal importance for accurate FEA.•Simulation of high-velocity perforation is an alternate way for validation of material models.•The full set of material constants for AA2024-T3...

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Bibliographic Details
Published in:International journal of solids and structures 2015-08, Vol.67-68, p.127-138
Main Author: Vershinin, Vladislav V.
Format: Article
Language:English
Subjects:
Experiment
Fracture criterion
Numerical simulation
Plasticity model
Plate perforation
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Summary:•New BLV data for AA2024-T3(51) circular plates were experimentally obtained.•Valid plasticity and fracture models are of equal importance for accurate FEA.•Simulation of high-velocity perforation is an alternate way for validation of material models.•The full set of material constants for AA2024-T3(51) were validated. Perforation of circular 2024-T3(51) aluminum alloy plates of various normalized thicknesses by a rigid spherical projectile is considered as a benchmark problem to validate material plasticity and fracture models. A new set of experiments with circular 2024-T3(51) aluminum alloy plates and AISI 52100 alloy steel spheres was conducted in order to augment available in literature experimental data and to form more precise reference solution for the benchmark problem. Numerical simulations of a plate perforation using Johnson–Cook plasticity model with two sets of parameters, Johnson–Cook fracture criterion with one set of fitting parameters and pressure and Lode dependent ductile fracture criterion with three sets of material constants are performed. Problem formulation, types of plasticity and fracture models and their parameters are estimated independently in the context of their effect on the accuracy of numerical solution. Ballistic limit velocity and residual velocity tests are employed for validation procedure. With one of the considered formulation-models combination quantitative discrepancy of less than 10% and good and physically sound qualitative agreement with the experiment were obtained.
ISSN:0020-7683
1879-2146
DOI:10.1016/j.ijsolstr.2015.04.007