Issue 4, 2022

Microstructure evolution and plastic deformation of Ni47Co53 alloy under tension

Abstract

To investigate microstructural evolution and plastic deformation under tension, the rapid solidification processes of the Ni47Co53 alloy are first simulated by molecular dynamics methods at cooling rates of 1011, 1012 and 1013 K sāˆ’1. Then, the uniaxial tension simulation study was conducted on a single crystal, polycrystal and metallic glass, which were formed during the rapid solidification. The results show that the dislocation loops evolution in the crystal is caused by the slips and proliferation of stacking faults, and in terms of plastic deformation, the single crystal is carried by stacking faults, while a polycrystal is carried by grain boundaries. A metallic glass formed at the critical cooling rate and crystallized under tension, the plastic deformation is carried by grain boundaries and stacking faults in metallic glass. Ultimately, the stacking faults are the most resistant to plastic deformation. This study has great significance for the study of the mechanical properties of single crystals, polycrystals and metallic glass.

Graphical abstract: Microstructure evolution and plastic deformation of Ni47Co53 alloy under tension

Article information

Article type
Paper
Submitted
26 Oct 2021
Accepted
15 Dec 2021
First published
16 Dec 2021

CrystEngComm, 2022,24, 893-900

Microstructure evolution and plastic deformation of Ni47Co53 alloy under tension

R. Ma, L. Zhou, Y. Liang, Z. Tian, Y. Mo, Q. Chen, R. Liu, T. Gao and Q. Xie, CrystEngComm, 2022, 24, 893 DOI: 10.1039/D1CE01446C

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