Abstract
Multi-principal element (MPE) alloys can be designed to have outstanding properties for a variety of applications. However, because of the compositional and phase complexity of these alloys, the experimental efforts in this area have often utilized trial and error tests. Consequently, computational modeling and simulations have emerged as power tools to accelerate the study and design of MPE alloys while decreasing the experimental costs. In this article, various computational modeling tools (such as density functional theory calculations and atomistic simulations) used to study the nano/microstructures and properties (such as mechanical and magnetic properties) of MPE alloys are reviewed. The advantages and limitations of these computational tools are also discussed. This study aims to assist the researchers to identify the capabilities of the state-of-the-art computational modeling and simulations for MPE alloy research.
Highlights
Multi-principal element (MPE) alloys, are a specific class of multicomponent alloys consisted of five or more alloying elements usually with near equi-atomic compositions [1]
We have provided a comprehensive overview of current computational modeling and simulation tools for the study and design of MPE alloys
We focused on the capabilities of different computational modeling tools to study, and predict the structures and properties of MPE alloys
Summary
Multi-principal element (MPE) alloys, are a specific class of multicomponent alloys consisted of five or more alloying elements usually with near equi-atomic compositions [1]. Due to the different type of principal elements in MPE alloys, designing of these alloys to achieve desired microstructures and properties is a challenging task. Based on this data, more than 2300 research articles have been published in various and a number are than growing everyhave year.been published in elementjournals alloy keywords. Based on this data, more than 2300 research articles have been published in various journals and a number of publications are growing remarkably every year. Various journals and a number of publications are growing remarkably every year These elements were transition metals, six According to the comprehensive review article of These.
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