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Rapid Assessment of Stable Crystal Structures in Single Phase High Entropy Alloys Via Graph Neural Network Based Surrogate Modelling

arXiv - PHYS - Materials Science Pub Date : 2024-09-11 DOI:arxiv-2409.07664
Nicholas Beaver, Aniruddha Dive, Marina Wong, Keita Shimanuki, Ananya Patil, Anthony Ferrell, Mohsen B. Kivy
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Abstract

In an effort to develop a rapid, reliable, and cost-effective method for predicting the structure of single-phase high entropy alloys, a Graph Neural Network (ALIGNN-FF) based approach was introduced. This method was successfully tested on 132 different high entropy alloys, and the results were analyzed and compared with density functional theory and valence electron concentration calculations. Additionally, the effects of various factors, including lattice parameters and the number of supercells with unique atomic configurations, on the prediction accuracy were investigated. The ALIGNN-FF based approach was subsequently used to predict the structure of a novel cobalt-free 3d high entropy alloy, and the result was experimentally verified.
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通过基于图神经网络的代用模型快速评估单相高熵合金中的稳定晶体结构
为了开发一种快速、可靠和经济有效的方法来预测单相高熵合金的结构,引入了一种基于图神经网络(ALIGNN-FF)的方法。该方法在 132 种不同的高熵合金上进行了成功测试,并将测试结果与密度泛函理论和价电子浓度计算结果进行了分析和比较。此外,还研究了各种因素(包括晶格参数和具有独特原子构型的超级单元数量)对预测精度的影响。随后,利用基于 ALIGNN-FF 的方法预测了一种新型无钴三维高熵合金的结构,并对结果进行了实验验证。
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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arXiv - PHYS - Materials Science
arXiv - PHYS - Materials Science
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