|About this Abstract
||2017 TMS Annual Meeting & Exhibition
||High Entropy Alloys V
||L-87: Atomic-scale Homogenization in an fcc-based High-entropy Alloy via Severe Plastic Deformation
||Hao Yuan, Ming-Hung Tsai, Gang Sha, Fan Liu, Zenji Horita, Yuntian Zhu, Jing Tao Wang
|On-Site Speaker (Planned)
The atomic-scale homogenization of a face-centered-cubic-based high-entropy alloy (HEA), Al0.3Cu0.5CoCrFeNi, using severe plastic deformation (SPD) is reported. Atom probe tomography revealed that water quenching from high temperature cannot produce a homogeneous single phase, and clustering of Cu, Al and Ni still exists. Subsequent processing by high-pressure torsion produced nanostructured non-equilibrium single phase with homogeneous elemental distribution at atomic scale. Importantly, such a non-equilibrium single phase is stable at room temperature due to the sluggish diffusion kinetics. These observations suggest that SPD is an effective approach for producing single-phase HEAs for fundamental studies and applications.
||Planned: Supplemental Proceedings volume