Microstructures and mechanical properties of nano carbides reinforced CoCrFeMnNi high entropy alloys

Different contents of carbon element (0-3 at.%) was added into CoCrFeMnNi high entropy alloys (HEAs) to prepare carbide-reinforced CoCrFeMnNi matrix composites. The effects of carbon on microstructures and mechanical properties were systematically studied. The CoCrFeMnNi HEA sheet without carbon showed fine recrystallized grains with a grain size of approximately 5 mm and contained Cr-rich sigma phase. The CoCrFeMnNiCx HEA sheets with 1.0 at.% and 3.0 at.% C presented fine recrystallized grains and a small fraction of elongated grains. A large number of nano-scaled carbides were observed in the carboncontaining HEA sheets. With the carbon content increasing from 0 at.% to 3.0 at.%, the strengthening of the alpha-fiber texture is more obvious, and tensile yield strength increased from 371MPa to 792MPa, however, the elongation decreased from 54% to 11%, respectively. The CoCrFeMnNiC1 HEA sheet with a volume fraction of 2.9% nano carbides showed excellent balanced mechanical property, with tensile yield strength of 634 MPa and elongation of 38%. The increase of yield strength for the CoCrFeMnNiC1 HEA was mainly ascribed to the combined effects of precipitation Orowan strengthening and dislocations strengthening. Precipitation Orowan strengthening is the primary strength contributor, with a value of approximate 157 MPa. (c) 2019 Elsevier B.V. All rights reserved.