期刊
出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2022.143628
关键词
High-entropy alloy; Carbon; Carbides; Thermal treatment; Strength; Ductility
This study introduces a new approach to improve the strength and ductility of heavily carbon-alloyed high entropy Fe20Mn20Cr20Ni20Co15C5 alloy, achieving a 4-times increase in ductility and high values of strength characteristics through a novel thermal treatment regime.
In this work we propose a new approach to improve strength and ductility of the heavily carbon-alloyed high entropy Fe20Mn20Cr20Ni20Co15C5 alloy, which is characterized by extremely low plasticity in cast state (delta = 5%, sigma(UTS) = 633 MPa). Novel thermal treatment regime, combining 5-h homogenization at T = 1200 degrees C with intermediate thermal cycling down to the room temperature, provides the 4-times increase in ductility and high values of strength characteristics (delta = 19%, sigma(UTS) = 905 MPa) due to the partial dissolution and smoothing of the carbides. Such complex processing regime provides better strength/ductility combination than those for the individual effects of a solid-solution treatment (dissolution of precipitates and solid-solution hardening of the austenite) or a thermal cycling treatment (refinement of carbide inclusions).
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