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Probing deformation mechanisms of a FeCoCrNi high-entropy alloy at 293 and 77?K using in situ neutron diffraction

The deformation responses at 77 and 293?K of a FeCoNiCr high-entropy alloy, produced by a powder metallurgy route, are investigated using in situ neutron diffraction and correlative transmission electron microscopy. The strength and ductility of the alloy are significant improved at cryogenic temperatures. The true ultimate tensile strength and total elongation increased from 980?MPa to 45% at 293?K to 1725?MPa and 55% at 77?K, respectively. The evolutions of lattice strain, stacking fault probability, and dislocation density were determined via quantifying the in situ neutron diffraction measurements. The results demonstrate that the alloy has a much higher tendency to form stacking faults and mechanical twins as the deformation temperature drops, which is due to the decrease of stacking fault energy (estimated to be 32.5?mJ/m2 and 13?mJ/m2 at 293 and 77?K, respectively). The increased volume faction of nano-twins and twin-twin intersections, formed during cryogenic temperature deformation, has been confirmed by transmission electron microscopy analysis. The enhanced strength and ductility at cryogenic temperatures can be attributed to the increased density of dislocations and nano-twins. The findings provide a fundamental understanding of underlying governing mechanistic mechanisms for the twinning induced plasticity in high entropy alloys, paving the way for the development of new alloys with superb resistance to cryogenic environments.

» Author: Yiqiang Wang, Bin Liu, Kun Yan, Minshi Wang, Saurabh Kabra, Yu-Lung Chiu, David Dye, Peter D. Lee, Yong Liu, Biao Cai

» Reference: Acta Materialia, Volume 154

» Publication Date: 01/08/2018

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