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Molecular dynamics simulation of shock wave propagation and spall failure in single crystal copper under cylindrical impact

Ying Chen, Zhiyong Jian, Shifang Xiao, Liang Wang, Xiaofan Li, Kun Wang, Huiqiu Deng, Wangyu Hu

2021Applied Physics Express18 citationsDOIOpen Access PDF

Abstract

Abstract The shock premelting and spallation of single crystal copper under cylindrical converging impact are studied using molecular dynamics simulations. For the axis of a cylindrical potential wall along the [001] crystallographic direction, the anisotropy of shock response is very obvious at the shock strength 1.4 km s −1 . Premelting occurs at the wavefront in the 〈110〉 direction, but not in the 〈100〉 direction. As a result of the converging effect, the requisite shock strength for generating premelting decreases in comparison with planar shock. Under the interaction of reflected wave and unloaded wave, the nucleation of spallation occurs in premelting tensile regions.

Topics & Concepts

SpallationPremeltingShock waveShock (circulatory)WavefrontMaterials scienceNucleationAnisotropyMolecular dynamicsSpallMechanicsOpticsPhysicsComposite materialThermodynamicsNuclear physicsNeutronMelting pointInternal medicineQuantum mechanicsMedicineHigh-Velocity Impact and Material BehaviorIon-surface interactions and analysisMicrostructure and mechanical properties
Molecular dynamics simulation of shock wave propagation and spall failure in single crystal copper under cylindrical impact | Litcius