YEH J W, CHEN S K, LIN S, et al. Nanostructured highentropy alloys with multiple principal elements: novel alloy design concepts and outcomes[J]. Advanced Engineering Materials, 2004, 6(5): 299-303.
[2]
叶均蔚,陈瑞凯.高熵合金[J].科学发展, 2004,377(5): 16-21.
[3]
CHEN H Y, TSAI C W, TUNG C C, et al. Effect of substitution of Co by Mn in AlCrCuFeCoNi highentropy alloys[J]. Annales De ChimieScience Des Materiaux, 2006, 31(6):685-698.
[4]
WU J M, LIN S J, YEH J W, et al. Adhesive wear behavior of AlxCoCrCuFeNi highentropy alloys as a function of aluminum content[J].Wear, 2006,261(5-6):513-519.
[5]
LIN Y C, CHO Y H. Elucidating the microstructural and tribological characteristics of NiCrAlCoCu and NiCrAlCoMo multicomponent alloy clad layers synthesized in situ[J]. Surface & Coatings Technology, 2009, 203(12):1694-1701.
[6]
HUNG P K, YEH J W, SHUN T T, et al. Multiprincipalelement alloys with improved oxidation and wear resistance for thermal spray coating[J]. Advanced Engineering Materials, 2004, 6(1-2):74-78.
[7]
CHEN T K, SHUN T T, YEH J W, et al. Nanostructured nitride films of multielement highentropy alloys by reactive DC sputtering[J]. Surface and Coatings Technology, 2004, 188-189(1-3):193-200.
