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

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

在本数据集汇编中，我们阐述了铬镍比例如何影响十种单相面心立方（FCC）CrxMn20Fe20Co20Ni40-x高熵合金的物理性质，其中x的取值范围为0至26原子百分比。所有数据均为原始文件（.opj）。以下是原始文件的简要描述，文件编号依照其在相关研究文章及补充材料中出现的顺序排列： 图02：合金的X射线衍射图谱 图03：通过微分扫描量热法获得的曲线 图04：热膨胀系数的温度依赖性 图05：弹性参数的温度依赖性 图06：Mn20Fe20Co20Ni40（原子百分比）合金的热重分析 图07+09b：相对于非磁性相在0K时的焓差、磁临界温度以及自发体积磁致伸缩的ab-initio计算结果 图09+10+S8：显示肖克莱部分之间的分离距离与位错线与完美伯格斯矢量之间角度的函数关系图，其中14 ≤ x ≤ 26原子百分比。这些数据允许确定合金的层错能。 图11：与文献中报道的Cu和Ag的相应图进行比较。 图S3：0 ≤ x ≤ 10原子百分比铸锭的EDX浓度分布 图S4、S5：14 ≤ x ≤ 26原子百分比铸锭的EDX浓度分布 晶格参数：所研究合金的晶格参数。