Effect of chemical composition on the microstructure, hardness and electrical conductivity profiles of the Bi-Ge-In alloys

Metallurgical and Materials Engineering Pub Date : 2020-12-31 DOI:10.30544/561

A. Djordjevic, M. Premović, D. Minić, M. Kolarević, M. Tomović

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Abstract

In this study, the microstructure, hardness, and electrical properties of selected ternary Bi-Ge-In alloys were investigated. Isothermal sections of the Bi-Ge-In system at 25, 200, and 300 ° C were extrapolated using optimized thermodynamic parameters from the literature. The used experimental techniques include optical microscopy, X-ray powder diffraction (XRD), scanning electron microscopy (SEM) and energy dispersion spectrometry (EDS), Brinell hardness, and electrical conductivity measurements. The results of EDS phase composition analysis were compared with the calculated isothermal sections and a good overall agreement was reached. The results of the XRD were also in line with the predicted phase balance. By using ANOVA analysis and experimental results of Brinell hardness and electrical conductivity, a mathematical model was suggested for the calculation of these properties along with all composition ranges. The appropriated mathematical model was subsequently used for the prediction of hardness and electrical conductivity throughout the whole composition range.

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化学成分对Bi-Ge-In合金显微组织、硬度和电导率的影响

本文研究了选定的三元Bi-Ge-In合金的显微组织、硬度和电性能。利用文献中优化的热力学参数外推了Bi-Ge-In系统在25、200和300°C时的等温截面。使用的实验技术包括光学显微镜，x射线粉末衍射(XRD)，扫描电子显微镜(SEM)和能量色散光谱(EDS)，布氏硬度和电导率测量。将EDS相组成分析结果与等温截面计算结果进行了比较，得到了较好的一致性。XRD结果也与预测相平衡一致。通过方差分析和布氏硬度和电导率的实验结果，提出了一个计算布氏硬度和电导率的数学模型。适当的数学模型随后用于预测整个成分范围内的硬度和电导率。

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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Metallurgical and Materials Engineering

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