Structure and properties of cast and splat-quenched high-entropy Al–Cu–Fe–Ni–Si alloys
- 作者: Bashev V.F.1, Kushnerov O.I.1
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隶属关系:
- Oles Honchar Dnipropetrovsk National University
- 期: 卷 118, 编号 1 (2017)
- 页面: 39-47
- 栏目: Structure, Phase Transformations, and Diffusion
- URL: https://journals.rcsi.science/0031-918X/article/view/166829
- DOI: https://doi.org/10.1134/S0031918X16100033
- ID: 166829
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详细
The effect of the composition and cooling rate of the melt on the microhardness, phase composition, and fine-structure parameters of as-cast and splat-quenched (SQ) high-entropy (HE) Al–Cu–Fe–Ni–Si alloys was studied. The quenching was performed by conventional splat-cooling technique. The cooling rate was estimated to be ~106 K/s. Components of the studied HE alloys were selected taking into account both criteria for designing and estimating their phase composition, which are available in the literature and based on the calculations of the entropy and enthalpy of mixing, and the difference between atomic radii of components as well. According to X-ray diffraction data, the majority of studied Al–Cu–Fe–Ni–Si compositions are two-phase HE alloys, the structure of which consists of disordered solid solutions with bcc and fcc structures. At the same time, the Al0.5CuFeNi alloy is single-phase in terms of X-ray diffraction and has an fcc structure. The studied alloys in the as-cast state have a dendritic structure, whereas, after splat quenching, the uniform small-grained structure is formed. It was found that, as the volume fraction of bcc solid solution in the studied HE alloys increases, the microhardness increases; the as-cast HE Al–Cu–Fe–Ni–Si alloys are characterized by higher microhardness compared to that of splat-quenched alloys. This is likely due to the more equilibrium multiphase state of as-cast alloys.
作者简介
V. Bashev
Oles Honchar Dnipropetrovsk National University
编辑信件的主要联系方式.
Email: bashev_vf@ukr.net
乌克兰, pr. Gagarina 72, Dnipro, 49010
O. Kushnerov
Oles Honchar Dnipropetrovsk National University
Email: bashev_vf@ukr.net
乌克兰, pr. Gagarina 72, Dnipro, 49010
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