BxAl1−xSb三元半导体合金力学性能的理论预测

R. Mezouar, N. Bioud, H. Rekab-Djabri, N. Beloufa, Z. Rouabah
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引用次数: 1

摘要

本工作旨在预测有序BxAl1-xSb(0≤x≤1)三元半导体合金的弹性常数和其他重要性能。我们报告了弹性刚度常数、体积模量、骨料剪切模量、柯西比、骨料杨氏模量、伯恩比、各向同性系数、断裂韧性以及纵向、横向和平均声速的初步结果。用两种不同的经验表达式预测了德拜温度和熔点。在0 ~ 1范围内,BxAl1-xSb合金的物理量除柯西比随硼含量x的增加而减小外,其余物理量均随硼含量x的增加而单调递增。我们得到的BSb和AlSb二元半导体化合物的数据进行了讨论和分析,并与文献中的实验值和其他理论值进行了比较。总的来说,我们的BSb和AlSb数据与先前文献报道的其他结果一致。事实上,我们得到的AlSb化合物的Debye温度(335.82 K)比Salehi等人报道的结果(328.6 K)高估了约2.03%,而BSb的熔点(1520 K)比Bioud等人最近报道的结果(1500 K)高估了约1.34%。此外,据我们所知,文献中没有关于BxAl1-xSb合金的弹性常数和其他性能的理论或实验数据来与它们进行比较。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical Prediction of Mechanical Properties of BxAl1−xSb Ternary Semiconducting Alloys
Abstract The present work aims to predict the elastic constants and other significant properties of ordered BxAl1-xSb (0 ≤ x ≤ 1) ternary semiconducting alloys. We report the initial results of the elastic stiffness constants, the bulk modulus, the aggregate shear modulus, the Cauchy ratio, the aggregate Young’s modulus, the Born ratio, the isotropy factor, the fracture toughness and the longitudinal, transverse and average sound velocities. The Debye temperature and the melting point were also predicted using two different empirical expressions. Except the Cauchy ratio, which decreases with enhancing boron content x, all other physical quantities of BxAl1-xSb alloys increase gradually and monotonically with increasing of boron concentration x in the range 0-1. Our obtained data for BSb and AlSb binary semiconducting compounds are discussed and analyzed in comparison with experimental and other theoretical values of the literature. Generally, our data for BSb and AlSb are in good agreement with other results reported previously in literature. Indeed, our obtained value (335.82 K) of the Debye temperature for AlSb compound overestimates the result (328.6 K) reported by Salehi et al. by around 2.03%, while that (1520 K) of the melting point for BSb overestimates the result (1500 K) reported recently by Bioud et al. by around 1.34%. Furthermore, to the best of our knowledge, no theoretical or experimental data were reported in the literature on the elastic constants and other properties for BxAl1-xSb alloys to compare with them.
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