Mechanical Alloying of Super Alloys Like High-Entropy Alloys and Smart Materials

Abstract

The acceleration of technological developments in today's industrial fields causes researchers working on engineering materials to engage in different searches. It is desirable to obtain features such as improving traditional materials, working at higher temperatures to obtain materials with higher wear resistance, and ensuring that the obtained materials have higher corrosion resistance. Today, where technological developments continue rapidly, the need for superior materials is increasing day by day. Therefore, in order to meet the need for materials with superior properties, nano-sized material synthesis methods have been developed. Mechanical alloying, one of these methods, stands out as one of the most preferred synthesis methods among production methods, thanks to its superior properties. High-entropy alloys and smart materials have high strength, hardness, high temperature resistance, toughness, structure stability, wear and high. It is known to have material properties needed by today's industry, such as corrosion resistance. Due to these superior features, it has a wide range of uses. In this study, mechanical alloying of superalloys such as high-entropy alloys and smart materials, which is a production technique of powder metallurgy, is discussed. © 2024 Elsevier B.V., All rights reserved.