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From high entropy alloys to diluted multi-component alloys: Range of existence of a solid-solution

2016; Elsevier BV; Volume: 103; Linguagem: Inglês

10.1016/j.matdes.2016.04.046

1873-4197

Mathilde Laurent‐Brocq, Loïc Perrière, Rémy Pirès, Yannick Champion,

Advanced Materials Characterization Techniques

In order to systematically compare high entropy alloys (HEA) and conventional diluted multi-component alloys and to observe the transition between both, 13 CrxMnxFexCoxNi100 − 4x multi-component alloys, where x takes values between 2 and 25, were processed so as to reach the stable state and then characterized. A unique fcc solid-solution is formed for a wide range composition, spanning from 0 to 90 at.% of Cr, Mn, Fe and Co. When the sum of Cr, Fe, Mn and Co contents is larger than 90 at.%, the system demixes into two quaternary phases. The existing thermodynamics models are unable to predict the range of existence of the solid-solution for the studied alloys. No microstructural transition between HEA and conventional diluted alloys is observed. The maximization of configurational entropy appears to be neither a sufficient nor a necessary condition to form a HEA. Consequently a new definition for HEA is needed.