Data for: Effects of Cr/Ni ratio on physical properties of Cr-Mn-Fe-Co-Ni high-entropy alloys

Published: 2 February 2022| Version 1 | DOI: 10.17632/8kzkdctdtp.1
Contributors:
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, Guillaume Laplanche

Description

In this compilation of data, we show how the Cr/Ni ratio affects the physical properties of ten single-phase FCC CrxMn20Fe20Co20Ni40-x high-entropy alloys for 0 ≤ x ≤ 26 at.%. All the data are origin files (.opj). Here is a short description of the origin files, which are numbered according to their order of appearence in the corresponding research article and supplementary materials: Fig02: X-Ray diffraction patterns of the alloys Fig03: Curves obtained by differential scannning calorimetry Fig04: Temperature dependence of the coefficients of thermal expansion Fig05: Temperature dependence of the elastic parameters Fig06: Thermal gravimetric analysis of the Mn20Fe20Co20Ni40 (in at.%) alloy Fig07+09b: Results of ab-initio calculations of enthalpy differences relative to the nonmagnetic phase at 0 K, magnetic critical temperature, and spontaneous volume magnetostriction Fig09+10+S8: Plots showing the separation distance between Shockley partials as a function of the angle between the dislocation line and the perfect Burgers vector for 14 ≤ x ≤ 26 at.%. These data allow to determine the stacking fault energy of the alloys. Fig11: Comparison of these latter plots with those reported in the literature for Cu and Ag. FigS3: EDX concentration profiles of the as-cast ingots for 0 ≤ x ≤ 10 at.% FigS4,S5: EDX concentration profiles of the as-cast ingots for 14 ≤ x ≤ 26 at.% lattice parameters: lattice parameters of the investigated alloys

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Steps to reproduce

Please refer to the research article and its supplementary materials, where the experimental methods are described.

Institutions

University of Tennessee, Ruhr-Universitat Bochum, Oak Ridge National Laboratory, Universite Paris-Est, Universitat Stuttgart, Technische Universiteit Delft, Max-Planck-Institut fur Eisenforschung GmbH

Categories

Materials Science, Materials Physics

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