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Dynamic Homogenization of Internal Strain in Multi-Principal Element Alloy via High-Concentration Doping of Oxygen with Large Mobility

来源:    发布时间 : 2024-01-16   点击量:  
年份 专利号
授权公告日 发明人
期号、页码 2300871 (2023) 期刊名称 Small Methods
文章作者 Yajing Song, Bozhao Zhang, Tianxin Li, Xiaoqian Fu, Jiawei Zou, Yujie Chen, Yan Fang, Qinghua Zhang, Lin Gu, Yiping Lu, Guang Yang, Suya Liu, Haifeng Wang, Jun Ding, Qian Yu

Internal strain and its distribution within the crystal lattice play crucial roles in modulating dislocation activities, thereby affecting mechanical properties of materials. Through the synergistic application of integrated differential phase contrast, in situ transmission electron microscopy characterizations, and computational simulations, a method is unveiled for homogenizing dislocation pinning in NiCoCr multi-principal element alloy (MPEA) through the introduction of a high concentration of oxygen atoms with high diffusion mobility. The doping of massive oxygen atoms creates a high density of strong local pinning points for dislocation motion. Notably, oxygen interstitials exhibit remarkable diffusion and mobility across different octahedral and tetrahedral sites within the distorted crystal lattice of NiCoCrO alloy, even at room temperature. The capability allows for the release of severe stress concentrations arising from dislocation entanglement and the establishment of new strong local pinning points at alternative locations in a uniform way, enabling the material with high strength and outstanding deformability. These findings suggest that interstitial atoms can exhibit significant mobility, even at ambient temperature, in complex MPEAs with spreading lattice distortion, opening new possibilities for dislocation engineering.


Link:Dynamic Homogenization of Internal Strain in Multi‐Principal Element Alloy via High‐Concentration Doping of Oxygen with Large Mobility - Song - Small Methods - Wiley Online Library

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