Comparison of heterogeneous material models for solving impact spall fracture problems

The responses of two models of heterogeneous medium to impact loading are compared, namely, the direct numerical simulation model and the additive mixture model. Verification of Ni and Ti material parameters in the simulation of spall in a homogeneous barrier is performed. The calculated free surfac...

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Main Authors: Buzyurkin, A. E., Kravchenko, A. K., Kraus, A. E., Kraus, E. I., Shabalin, I. I.
Format: Conference Proceeding
Language:English
Subjects:
Direct numerical simulation
Free surfaces
Impact loads
Mixtures
Nickel titanides
Plates
Shape memory alloys
Simulation models
Velocity distribution
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Kravchenko, A. K.
Kraus, A. E.
Kraus, E. I.
Shabalin, I. I.
description The responses of two models of heterogeneous medium to impact loading are compared, namely, the direct numerical simulation model and the additive mixture model. Verification of Ni and Ti material parameters in the simulation of spall in a homogeneous barrier is performed. The calculated free surface velocity for homogeneous plates corresponds to the experimental data with an accuracy of at least 10%. A simulation of the impact loading process of plates made of Nitinol based on mathematical models of heterogeneous materials has been performed. The additive mixture model more accurately reproduces the free surface velocity profiles than direct numerical simulations. Nevertheless, the deviation of numerical simulation results from experimental data does not exceed 10% for both models. A comparison of the results of the models' responses to impact loading has shown that it is acceptable to use both models in problems considering alloys as heterogeneous media.
doi_str_mv 10.1063/5.0162710
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Direct numerical simulation
Free surfaces
Impact loads
Mixtures
Nickel titanides
Plates
Shape memory alloys
Simulation models
Velocity distribution
title Comparison of heterogeneous material models for solving impact spall fracture problems
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