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Atomic structure, tensile property, and dislocation behavior of Fe–W interfaces from molecular dynamics simulation

Shiteng Mi, C.Y. Wu, L. C. Liu, Jinglian Fan, H.R. Gong

2021Journal of Physics Condensed Matter13 citationsDOI

Abstract

Molecular dynamic simulations based on a recently constructed potential reveal that quasi-repeating patterns could appear in both Fe(110)/W(110) and W(110)/Fe(110) interfaces, and that three kinds of atomic displacements of Fe atoms because of the Fe-W interaction intrinsically bring about the interesting quasi-repeating patterns of the Fe-W interfaces. It is also found that the Fe-W interface becomes more brittle with less critical strains under tensile loading than pure Fe or W, which is fundamentally attributed to the movement of the interface dislocations as a result of the lattice mismatch between Fe and W. Interestingly, the dislocation loops could be formed in the Fe-W interface under tensile loading due to the pinning of the100edge dislocations by the edge dislocations of1/2111, whereas no dislocation loop would be generated in pure Fe or W.

Topics & Concepts

Materials scienceDislocationMolecular dynamicsUltimate tensile strengthBrittlenessLattice (music)Embedded atom modelCondensed matter physicsCrystallographyComposite materialChemistryComputational chemistryPhysicsAcousticsMicrostructure and mechanical propertiesMetal and Thin Film MechanicsFusion materials and technologies