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Effect of Al/Ni ratio, heat treatment on phase transformations and microstructure of Al FeCoCrNi2− (x= 0.3, 1) high entropy alloys

2015; Elsevier BV; Volume: 81; Linguagem: Inglês

10.1016/j.matdes.2015.05.027

0261-3069

Harihar Sistla, Joseph William Newkirk, Frank Liou,

Additive Manufacturing Materials and Processes

Laser-aided direct metal deposition, an additive manufacturing technique, was successfully used to fabricate thin walled high entropy alloy components. In this study, the ratio of aluminum to nickel in the AlFeCoCrNi system was decreased to observe the transition of the solid solution from a body centered cubic to a face centered cubic structure. Aluminum concentration was found to cause ordering and spinodal decomposition concomitantly in two of the compositions. The lattice parameter increased from 0.288 nm to 0.357 nm and the hardness decreased from 670 Hv to 149 Hv respectively. Differential thermal analysis was used to track the solidification paths of each of the compositions. Annealing at high temperature led to σ phase transformation in some of the compositions which along with solid solution strengthening accounted for the high softening resistance of these alloys. The optimization of the Al/Ni ratio in these alloys for better mechanical properties has been discussed with the help of an additional alloy composition as an example.