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Atomic-Approach to Predict the Energetically Favored Composition Region and to Characterize the Short- Medium- and Extended-Range Structures of the Ti-Nb-Al Ternary Metallic Glasses

机译：原子方法预测能量最有利的组成区域并表征Ti-Nb-Al三元金属玻璃的短中和扩展范围结构

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摘要

Ab initio calculations were conducted to assist the construction of the n-body potential of the Ti-Nb-Al ternary metal system. Applying the constructed Ti-Nb-Al interatomic potential, molecular dynamics and Monte Carlo simulations were performed to predict a quadrilateral composition region, within which metallic glass was energetically favored to be formed. In addition, the amorphous driving force of those predicted possible glassy alloys was derived and an optimized composition around Ti15Nb45Al40 was pinpointed, implying that this alloy was easier to be obtained. The atomic structure of Ti-Nb-Al metallic glasses was identified by short-, medium-, and extended-range analysis/calculations, and their hierarchical structures were responsible to the formation ability and unique properties in many aspects.

机译：从头算进行了计算，以帮助构造Ti-Nb-Al三元金属系统的n体势。应用构造的Ti-Nb-Al原子间电势，进行了分子动力学和蒙特卡罗模拟，以预测一个四边形组成区域，在该区域中大力形成金属玻璃。另外，推导了那些可能的玻璃态合金的非晶态驱动力，并指出了Ti15Nb45Al40周围的最佳成分，这意味着该合金更容易获得。 Ti-Nb-Al金属玻璃的原子结构通过短程，中程和扩展范围的分析/计算来鉴定，并且它们的层次结构在许多方面影响了形成能力和独特的性能。

著录项

期刊名称 Materials
作者
Bei Cai; Jianbo Liu; Jiahao Li; Menghao Yang; Baixin Liu;
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作者单位

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年(卷),期 2019(12),3
年度 2019
页码 432
总页数 17
原文格式 PDF
正文语种
中图分类外科学;
关键词
Ti-Nb-Al system interatomic potential atomistic simulation glass-formation ability (GFA) atomic structure;

机译：Ti-Nb-Al体系;原子间势;原子模拟;玻璃形成能力（GFA）;原子结构;
入库时间 2022-08-17 11:42:57

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1. Interatomic potential to predict the favored and optimized compositions for ternary Cu-Zr-Hf metallic glasses [J] . Luo S. Y., Cui Y. Y., Dai Y., Journal of Applied Physics . 2012,第10期

机译：预测三元Cu-Zr-Hf金属玻璃理想和优化成分的原子间势
2. Interatomic potential to predict the favored and optimized compositions for ternary Cu-Zr-Hf metallic glasses [J] . S. Y. Luo, Y. Y. Cui, Y. Dai, Journal of Applied Physics . 2012,第10期

机译：预测三元Cu-Zr-Hf金属玻璃理想和优化成分的原子间势
3. Thermodynamic predicting and atomistic modeling the favored compositions for Mg-Ni-Y metallic glasses [J] . Wang Q., Li J. H., Liu B. X. RSC Advances . 2015,第74期

机译：热力学预测和原子建模Mg-Ni-Y金属玻璃的理想成分
4. Analysis of Optimal Compositions of Ternary Bulk Metallic Glasses with Thermodynamic Quantities [C] . Akira Takeuchi, Akihisa Inoue International Conference on Processing amp; Manufacturing of Advanced Materials; 20060704-08; Vancouver(CA) . 2006

机译：三元大块金属玻璃热力学定量的最佳组成分析
5. Characterizing Structure, Properties, and Deformation in Metallic Glasses and Olivine Using Instrumented Nanoindentation [D] . Kranjc, Kelly. 2017

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6. Atomistic Design of Favored Compositions for Synthesizing the Al-Ni-Y Metallic Glasses [O] . Q. Wang, J. H. Li, J. B. Liu, -1

机译：用于合成Al-Ni-Y金属玻璃的有利成分的原子设计
7. Atomic-Approach to Predict the Energetically Favored Composition Region and to Characterize the Short-, Medium-, and Extended-Range Structures of the Ti-Nb-Al Ternary Metallic Glasses [O] . Bei Cai, Jianbo Liu, Jiahao Li, 2019

机译：原子方法预测能量最有利的组合物区域并表征Ti-NB-Al三元金属玻璃的短，中等和延伸范围结构
8. Composition Range and Glass Forming Ability of Ternary Ca-Mg-Cu Bulk Metallic Glasses (Preprint) [R] . Senkov, O. N. , Scott, J. M. , Miracle, D. B. 2006

机译：三元Ca-mg-Cu块状金属玻璃的成分范围和玻璃形成能力（预印）

Atomic-Approach to Predict the Energetically Favored Composition Region and to Characterize the Short- Medium- and Extended-Range Structures of the Ti-Nb-Al Ternary Metallic Glasses

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