摘要
In this study,a new Al0.9CoFeNi2 eutectic high entropy alloy(EHEA) was designed,and the microstructures as well as the deformation behavior were investigated.The bulk cast Al0.9CoFeNi2 EHEA exhibited an order face-centered cubic FCC(L12) and an order body-centered cubic(B2) dual-phase lamellar eutectic microstructure.The volume fractions of FCC(L12) and B2 phases are measured to be 60 % and 40 %,respectively.The combination of the soft and ductile FCC(L12) phase together with the hard B2 phase resulted in superior strength of 1005 MPa and ductility as high as 6.2 % in tension at room temperature.The Al0.9CoFeNi2 EHEA exhibited obvious three-stage work hardening characteristics and high workhardening ability.The evolving dislocation substructure s during uniaxial tensile deformation found that planar slip dominates in both FCC(L12) and B2 phases,and the FCC(L12) phase is easier to deform than the B2 phase.The post-deformation transmission electron microscopy revealed that the sub-structural evolution of the FCC(L12) phase is from planar dislocations to bending dislocations,high-density dislocations,dislocation network,and then to dislocation walls,and Taylor lattices,while the sub-structural evolution of the B2 phase is from a very small number of short dislocations to a number of planar dislocations.Moreover,obvious ductile fracture in the FCC(L12) phase and a brittle-like fracture in the B2 phase were observed on the fracture surface of the Al0.9CoFeNi2 EHEA.The re search results provide some insight into the microstructure-property relationship.
基金
supported financially by the National Natural Science Foundation of China(Nos.51901116,51822402 and 51671044)
the National Key Research and Development Program of China(Nos.2019YFA0209901 and 2018YFA0702901)
the Fund of the State Key Laboratory of Solidification Processing in NWPU(No.SKLSP201902)
the Liao Ning Revitalization TalentsProgram(No.XLYC1807047)
the National MCF Energy R&D Program(No.2018YFE0312400)
the Fund of Science and Technology on Reactor Fuel and Materials Laboratory(No.STRFML-2020-04)
the U.S.Army Research Office for the support of the present work through projects Nos.W911NF-13-1-0438 and W911NF-19-2-0049
the National Science Foundation for the support of the present work through projects Nos.DMR1611180 and 1809640。
