Journal
INTERMETALLICS
Volume 53, Issue -, Pages 112-119Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.intermet.2014.04.019
Keywords
High-entropy alloys; Phase stability; prediction; Electron microscopy; transmission
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One or more disordered solid solutions (DSS) are entropically stabilized in high entropy alloys (HEA), in competition with possible intermetallic compounds or phase segregation. In spite of the supreme role of Gibbs free energy, various parameters have been used to understand the formation of DSS in multicomponent alloys. These include, the delta-parameter (based on atomic size differences between the elements), the enthalpy of mixing (Delta H-mix) the Omega-parameter (T-m Delta S-mix/vertical bar Delta H-mix vertical bar). These parameters have had different degrees of success in the context of understanding the formation of DSS in multi-component alloys. In the current work, we develop a purely geometrical parameter (Lambda = Delta S-mix/delta(2)) to predict the formation of DSS. Ranges are prescribed for this parameter for the formation of: (a) DSS, (b) a mixture involving compounds and (c) (only) compound(s). Results from the literature are used to highlight the utility of the Lambda-parameter, in the context of other standard approaches. The role of the value of the Lambda-parameter in understanding the nature (complexity) and volume fraction of the compound formed is also highlighted. (C) 2014 Elsevier Ltd. All rights reserved.
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