![]() Liaw: High-entropy alloys with high saturation magnetization, electrical resistivity, and malleability. Zhang: Effect of Nb addition on the microstructure and properties of AlCoCrFeNi high-entropy alloy. Jiang: Microstructure and magnetic properties of FeNiCuMnTiSn x high entropy alloys. Turgut: Magnetic and vibrational properties of high-entropy alloys. Lin: Electrical, magnetic, and Hall properties of Al xCoCrFeNi high-entropy alloys. Zhang: Annealing on the structure and properties evolution of the CoCrFeNiCuAl high-entropy alloy. Tong: Electrochemical preparation and magnetic study of Bi–Fe–Co–Ni–Mn high entropy alloy. Chen: Novel microstructure and properties of multicomponent CoCrCuFeNiTi x alloys. (Springer International Publishing, Cham, 2016) p. In High Entropy Alloys: Fundamentals and Applications, M.C. Chang: Potential applications and prospects. ![]() Hawk: Effect of molybdenum on the corrosion behavior of high-entropy alloys CoCrFeNi 2 and CoCrFeNi 2Mo 0.25 under sodium chloride aqueous conditions. Birbilis: Corrosion of high entropy alloys. Liaw: Corrosion-resistant high-entropy alloys: A review. Lu: Thermoelectric high-entropy alloys with low lattice thermal conductivity. Lu: Thermoelectric performance of PbSnTeSe high-entropy alloys. Palmqvist: High-entropy alloys as high-temperature thermoelectric materials. Lu: Rare-earth high-entropy alloys with giant magnetocaloric effect. McHenry: The role of compositional tuning of the distributed exchange on magnetocaloric properties of high-entropy alloys. ![]() Koch: Nanocrystalline high-entropy alloys. Senkov: Mapping the world of complex concentrated alloys. Tiley: Exploration and development of high entropy alloys for structural applications. Senkov: A critical review of high entropy alloys and related concepts. (Springer International Publishing, Cham, 2016).ĭ.B. Zhang: High-Entropy Alloys: Fundamentals and Applications, 1st ed. Lu: Microstructures and properties of high-entropy alloys. Hawk: Thermodynamics of concentrated solid solution alloys. Vincent: Microstructural development in equiatomic multicomponent alloys. Chang: Nanostructured high-entropy alloys with multiple principal elements: Novel alloy design concepts and outcomes. ![]() Perspectives are offered in designing future high-performance functional materials utilizing the high-entropy concepts and high-throughput predictive computational modeling. Extending the concept of high configurational entropy to a wide range of materials such as intermetallics, ceramics, and semiconductors through the isostructural design approach is discussed. ![]() Comparisons of functional properties between HEAs and conventional low- and medium-entropy materials are provided, and examples are illustrated using computational modeling and tuning the composition of existing functional materials through substitutional or interstitial mixing. The objective of this paper is to provide a brief, timely review on select functional properties of HEAs, including soft magnetic, magnetocaloric, physical, thermoelectric, superconducting, and hydrogen storage. While most papers on high-entropy alloys (HEAs) focus on the microstructure and mechanical properties for structural materials applications, there has been growing interest in developing high-entropy functional materials. ![]()
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