Influence of gradual replacement of aluminum for copper in FeCrCoNiCu alloys

Abstract: AlxFeCrCoNiCu1‐x alloys with multiprincipal elements (x values in a molar ratio of 0, 0.2, 0.4, 0.6, 0.8, 1) are prepared by arc melting. When part of copper in the alloy began to be substituted by aluminum, although the microstructure is still the face centered cubic structure, the hardness of the alloy has drastically decreased. With the increase of replacing copper with aluminum, the hardness of alloy increases slowly, and when x = 0.8, rich aluminum nanoparticle precipitation and “Widmanstatten side plates… Show more

“…High entropy alloys (HEAs) which usually contain five or more elements with equal or near equal atomic ratio, was proposed recently at the start of this century [1][2]. Yeh defined HEAs as alloys of more than 5 main components with concentrations of 5 to 35 atomic % [3].…”

Structural Characterization of High Entropy Alloy (FeCoCrNiMn) Synthesized by Mechanical Alloying

“…High entropy alloys (HEAs) which usually contain five or more elements with equal or near equal atomic ratio, was proposed recently at the start of this century [1][2]. Yeh defined HEAs as alloys of more than 5 main components with concentrations of 5 to 35 atomic % [3].…”

Structural Characterization of High Entropy Alloy (FeCoCrNiMn) Synthesized by Mechanical Alloying

“…Técnica Federico Santa Maria, Valparaíso, Valparaiso, Chile, 4 Universidad Nacional Autónoma de México, Morelia, Michoacan de Ocampo, Mexico High entropy alloys (HEAs) which usually contain five or more elements with equal or near equal atomic ratios, were proposed recently at the start of this century [1,2]. It opens up the possibility of creating new metallic alloys with good mechanical properties, especially at elevated temperatures.…”

Structural Characterization of High Entropy Alloy (FeCoCrNiCu) Synthesized by Mechanical Alloying

Composition and phase structure dependence of magnetic properties for Co2FeCr0.5Alx (x=0.9, 1.2) multi principal component alloys