INTERFACE-DRIVEN SOLID-STATE ALLOYING IN AN IMMISCIBLE CU-W SYSTEM

Chen YG.; Liu BX.

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INTERFACE-DRIVEN SOLID-STATE ALLOYING IN AN IMMISCIBLE CU-W SYSTEM

机译：不相溶的CU-W系统中的界面驱动固态合金

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Cu-W multilayered films were properly designed according to an interfacial free-energy estimation such that an amorphous and three metastable crystalline FCC phases were formed by solid-state reaction in this immiscible system. To understand such alloying behaviour, a Gibbs free-energy diagram of the system was constructed on the basis of Miedema's model and related methods. The calculated diagram showed that the interfacial free energy resulting from chemical and elastic contributions could raise the initial energetic state of the multilayered films to a state higher than those of the observed metastable phases, thus providing a driving force for solid-state alloying in this immiscible Cu-W system. [References: 13]

机译：根据界面自由能估计值对Cu-W多层膜进行了适当的设计，以便在该不混溶的系统中通过固相反应形成非晶态和三个亚稳态结晶FCC相。为了了解这种合金化行为，在Miedema模型和相关方法的基础上构建了系统的Gibbs自由能图。计算图表明，化学和弹性作用产生的界面自由能可将多层膜的初始能态提高到高于所观察到的亚稳态相的态，从而为这种不可混溶的固态合金化提供了动力。铜钨系统。 [参考：13]

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |1997年第12期|共5页
作者
Chen YG.; Liu BX.;
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正文语种 eng
中图分类应用物理学;
关键词
Amorphous alloy;

机译：非晶态合金;

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专利

1. INTERFACE-DRIVEN SOLID-STATE ALLOYING IN AN IMMISCIBLE CU-W SYSTEM [J] . Chen YG., Liu BX. Journal of Physics, D. Applied Physics: A Europhysics Journal . 1997,第12期

机译：不相溶的CU-W系统中的界面驱动固态合金
2. Comparative study of metastable phase formation in the immiscible Cu-W system by ab initio calculation and n-body potential [J] . Zhang RF, Kong LT, Gong HR, Journal of Physics. Condensed Matter . 2004,第29期

机译：通过从头算和n体势比较研究不混溶Cu-W系统中亚稳相的形成
3. Eutectic, monotectic and immiscibility systems of nimesulide with water-soluble carriers: phase equilibria, solid-state characterisation and in-vivo/pharmacodynamic evaluation. [J] . Hamdy Abdelkader, Ossama Y Abdallah, Hesham Salem, Journal of Pharmacy and Pharmacology . 2014,第10期

机译：尼美舒利与水溶性载体的共晶，单晶和不混溶系统：相平衡，固态表征和体内/药效学评估。
4. Amorphous Alloy Formation in Immiscible Cu-Ta and Cu-W Systems by Atomistic Modeling and Ion-Beam Mixing [C] . H. R. Gong, L. T. Kong, B. X. Liu MRS Meeting . 2004

机译：通过原子造型和离子束混合在不混溶的Cu-Ta和Cu-W系统中的非晶合金形成
5. The nature of amorphous alloys in an immiscible system. [D] . He, Jinghao. 2001

机译：不可混溶系统中非晶态合金的性质。
6. An informatics guided classification of miscible and immiscible binary alloy systems [O] . R. F. Zhang, X. F. Kong, H. T. Wang, -1

机译：信息学指导的可混溶和不可混溶二元合金系统分类
7. Lidocaine/L-Menthol Binary System: Cocrystallization versus Solid-State Immiscibility [O] . Corvis, Yohann, Négrier, Philippe, Lazerges, Mathieu, 2010

机译：利多卡因/ L-薄荷醇二元系统：共结晶与固态不混溶
8. Influence of Containerless Undercooling and Rapid Solid-State Quenching on the Superconductive and Magnetic Properties of Some Clustering Alloy Systems [R] . Collings, E. W. 1984

机译：无容器过冷和快速固态淬火对某些团聚合金系统超导磁性能的影响

INTERFACE-DRIVEN SOLID-STATE ALLOYING IN AN IMMISCIBLE CU-W SYSTEM

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