Mechanochemical synthesis of AlCoCrFeNi powders via high-energy ball milling

Bulletin of the Karaganda University "Physics Series" Pub Date : 2023-12-15 DOI:10.31489/2023ph4/76-81

Y. Kambarov, A. Kengesbekov, Zh.B. Sagdoldina, D. Buitkenov

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Abstract

AlCoCrFeNi powders in equimolar ratios were synthesized by mechanochemical synthesis on a high-energy ball milling machine (HEBM). The elemental and phase composition of AlCoCrFeNi powders before and after mechanochemical synthesis were investigated by X-ray phase analysis and scanning electron microscopy with EDS analysis. A preliminary mathematical calculation of the physical parameter responsible for the phase stability of the solid solution valence electron concentration (VEC) showed that the fusion of this system should form the FCC phase. However, the result of XRD analysis showed that during the synthesis a solid solution with FCC and BCC phases was formed. The EDS mapping results of AlCoCrFeNi powders after HEBM showed a homogeneous distribution of elements without macro-segregation. The results presented in this work indicate the formation of a high-entropy alloy of AlCoCrFeNi system in a short time of mechanochemical synthesis. Continuous deformation, fracture and cold welding during mechanochemical synthesis leads to increased diffusion of elements and accounts for the formation of the HEA alloy.

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通过高能球磨机械化学合成 AlCoCrFeNi 粉末

在高能球磨机（HEBM）上通过机械化学合成法合成了等摩尔比的铝钴铬铁镍粉末。通过 X 射线相分析和扫描电子显微镜与 EDS 分析，研究了机械化学合成前后铝钴铬铁镍粉的元素和相组成。对固溶体价电子浓度（VEC）导致相稳定性的物理参数进行的初步数学计算表明，该体系的融合应形成 FCC 相。然而，XRD 分析结果表明，在合成过程中形成了具有 FCC 和 BCC 相的固溶体。HEBM 后铝钴铬铁镍粉的 EDS 图谱结果显示元素分布均匀，没有宏观偏析。本研究的结果表明，在短时间的机械化学合成过程中形成了高熵合金 AlCoCrFeNi 体系。机械化学合成过程中的连续变形、断裂和冷焊导致元素扩散增加，是形成高熵合金的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Bulletin of the Karaganda University "Physics Series"

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