A Practical Thermodynamic Method to Calculate the Best Glass-forming Composition for Bulk Metallic Glasses

H. Wang; H. M. Fu; H. F. Zhang; Z. Q. Hu

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A Practical Thermodynamic Method to Calculate the Best Glass-forming Composition for Bulk Metallic Glasses

机译：计算大块金属玻璃最佳玻璃形成成分的实用热力学方法

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Bulk metallic glasses are regarded as a new class of engineering materials because of their extraordinary high strength, great elasticity, and high corrosion and wear resistance. The selection of good glass-forming composition is the most important issue in BMG development. In this paper, a thermodynamic method, which combines element substitution and mixing enthalpy calculation, has been successfully developed to predict the optimum glass-forming compositions in Cu-Zr-Ti, Cu-Hf-Ti, Cu-Zr-Hf-Ti and Pd-Ni-P alloy systems. Alloy compositions with the largest glass-forming ability are always accompanied with the smallest enthalpy value for the alloy systems. The prediction results have been confirmed by experiments. It is concluded that the thermodynamic method provides a practical and effective tool to find the optimum glass forming composition.

机译：大块金属玻璃由于其非凡的高强度，大的弹性以及高的耐腐蚀和耐磨性而被视为一类新型工程材料。良好的玻璃形成成分的选择是BMG开发中最重要的问题。本文成功开发了一种热力学方法，该方法结合了元素置换和混合焓计算，可预测Cu-Zr-Ti，Cu-Hf-Ti，Cu-Zr-Hf-Ti和Cu-Zr-Ti中最佳的玻璃形成成分。 Pd-Ni-P合金体系。具有最大玻璃形成能力的合金组合物总是伴随着合金系统的最小焓值。通过实验证实了预测结果。结论是，热力学方法为找到最佳的玻璃成型成分提供了一种实用而有效的工具。

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《International journal of nonlinear sciences and numerical simulation》 |2007年第2期|共8页
作者
H. Wang; H. M. Fu; H. F. Zhang; Z. Q. Hu;
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正文语种 eng
中图分类数值分析;
关键词
Bulk metallic glasses; Glass-forming ability; Miedema's model; Mixing enthalpy;

机译：大块金属玻璃;成玻璃能力;Miedema模型;混合焓;

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3. 含Nb的Cu-Zr-Al基大块金属玻璃的玻璃形成能力和力学性能 [J] . M ABBASI, R GHOLAMIPOUR, F SHAHRI 中国有色金属学报（英文版） . 2013,第007期
4. 含Nb的Cu-Zr-Al基大块金属玻璃的玻璃形成能力和力学性能 [J] . M.ABBASI, R.GHOLAMIPOUR, F.SHAHRI 中国有色金属学报：英文版 . 2013,第007期
5. A Practical Thermodynamic Method to Calculate the Best Glass-forming Composition for Bulk Metallic Glasses [J] . H. Wang, H. M. Fu, H. F. Zhang, International journal of nonlinear sciences and numerical simulation . 2007,第2期

机译：计算大块金属玻璃最佳玻璃形成成分的实用热力学方法
6. Predicting alloy compositions of bulk metallic glasses with high glass-forming ability [J] . Xiulin Ji, Ye Pan Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing . 2008,第1a2期

机译：预测具有高玻璃形成能力的大块金属玻璃的合金成分
7. Thermodynamical analysis of the glass-forming ability of bulk metallic glasses [J] . Singh P.K., Dubey K.S. Journal of thermal analysis and calorimetry . 2012,第3期

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8. The Prediction of Glass-Forming Compositions in Metallic Systems - The Development of New Bulk Metallic Glasses [C] . K.J. Laws, K.F. Shamlaye, B. Gun, International conference on processing manufacturing of advanced materials;THERMEC 2009 . 2010

机译：金属体系中玻璃形成成分的预测-新型大块金属玻璃的发展
9. Application of computational thermodynamics in the study of magnsium alloys and bulk metallic glasses. [D] . Cao, Hongbo. 2008

机译：计算热力学在镁合金和大块金属玻璃研究中的应用。
10. Spectral descriptors for bulk metallic glasses based on the thermodynamics of competing crystalline phases [O] . Eric Perim, Dongwoo Lee, Yanhui Liu, -1

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11. A practical thermodynamic method to calculate the best glass-forming composition for bulk metallic glasses [O] . Wang H., Fu H. M., Zhang H. F., 2007

机译：一种实用的热力学方法，用于计算散装金属玻璃的最佳玻璃形成成分
12. 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）

A Practical Thermodynamic Method to Calculate the Best Glass-forming Composition for Bulk Metallic Glasses

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