Thermal-Mechanical Processing and Strengthen in Al x CoCrFeNi High-Entropy Alloys

In this study high-entropy alloys (HEAs) were devised based on a new alloy design concept, which breaks with traditional design methods for conventional alloys. As a novel alloy, HEAs have demonstrated excellent engineering properties and possible combinations of diverse properties for their unique tunable microstructures and properties. This review article explains the phase transition mechanism and mechanical properties of high-entropy alloys under the thermal-mechanical coupling effect, which is conducive to deepening the role of deformation combines annealing on the structure control and performance improvement of high-entropy alloys, giving HEAs a series of outstanding performance and engineering application prospect. To reach this goal we have explored the microstructural evolution, formation of secondary phases at high and/or intermediate temperatures and their effect on the mechanical properties of the well known AlxCoCrFeNi HEAs system, which not only has an important role in deepening the understanding of phase transition mechanism in AlxCoCrFeNi HEAs, but also has important engineering application value for promoting the application of high-entropy alloys.

Automated summary

High-entropy alloys (HEAs) are novel alloys designed based on a new concept, showing excellent engineering properties and unique combinations of microstructures and properties. Studying the phase transition mechanism and mechanical properties of HEAs can deepen the understanding of structure control and performance improvement, leading to potential engineering applications for these alloys.