首页> 外文会议>National Conference on Processing and Characterization of Materials >Deformation of Ni_(20)W_(20)Cu_(20)Fe_(20)Mo_(20) high entropy alloy for tensile followed by compressive and compressive followed by tensile loading: A molecular dynamics simulation based study

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Deformation of Ni_(20)W_(20)Cu_(20)Fe_(20)Mo_(20) high entropy alloy for tensile followed by compressive and compressive followed by tensile loading: A molecular dynamics simulation based study

机译：Ni_（20）W_（20）CU_（20）FE_（20）MO_（20）高熵合金的变形，其用于拉伸，然后是压缩和压缩，然后拉伸载荷：基于分子动力学模拟的研究

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In this paper, molecular dynamics (MD) simulations based study on deformation behavior during uniaxial tension followed by compression and compression followed by tension after 0.6 pre-strain for Ni20W20Cu20Fe20Mo20 high entropy alloy (20 at. % each element) single crystals has been reported. This MD simulation is carried out at strain rate of 108 s-1 and at the temperature of-1 OoC. The influence of observed nano twin on deformation behaviour for such two types of loading process (i.e. tensile followed by compressive and compressive followed by tensile) has been investigated thoroughly. It is found that the dominant deformation mechanism is twin for tensile forward loading in Ni20W20Cu20Fe20Mo20 high entropy alloy single crystal, whereas atomic diffusion is the dominating factor for deformation behaviour in compressive reverse loading direction of high entropy alloy.

机译：本文在单轴张力期间的分子动力学（MD）模拟基于单轴张力变形行为的研究，然后通过压缩和压缩后，NiO20W20Fu20Fe20MO20高诱导合金（20.％各元素）的0.6株菌株后张力。该MD仿真以108 S-1的应变速率和1 oOC的温度进行。彻底研究了观察到纳米双单对这种两种加载过程变形行为的影响（即抗压和压缩的拉伸，然后用拉伸）进行了彻底研究。结果发现，显性变形机制是Ni20W20Fu20Fe20MO20高熵合金单晶的拉伸前进载荷的双蛋白，而原子扩散是高熵合金压缩反向负载方向上变形行为的主导因子。

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《National Conference on Processing and Characterization of Materials》|2016年|325p.|共7页
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Md. Meraj; S. Pal;
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正文语种
中图分类工程材料学;
关键词
Molecular Dynamics; High entropy alloy; Twin; Atomic diffusion;

机译：分子动力学;高熵合金;双胞胎;原子扩散;
入库时间 2022-08-20 23:01:07

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5. Deformation of Ni_(20)W_(20)Cu_(20)Fe_(20)Mo_(20) high entropy alloy for tensile followed by compressive and compressive followed by tensile loading: A molecular dynamics simulation based study [C] . Md. Meraj, S. Pal National Conference on Processing and Characterization of Materials . 2016

机译：Ni_（20）W_（20）CU_（20）FE_（20）MO_（20）高熵合金的变形，其用于拉伸，然后是压缩和压缩，然后拉伸载荷：基于分子动力学模拟的研究
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机译：Nb25mo25Ta25W25和V20Nb20mo20Ta20W20耐火高熵合金的力学性能。预印本

Deformation of Ni_(20)W_(20)Cu_(20)Fe_(20)Mo_(20) high entropy alloy for tensile followed by compressive and compressive followed by tensile loading: A molecular dynamics simulation based study

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