Age-hardening in a two component immiscible nanolaminate metal system

Kim Chang-Eun; Rahimi Raheleh M.; Maxwell Tyler L.; Balk T. John; Bahr David F.

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Age-hardening in a two component immiscible nanolaminate metal system

机译：两个组分不混溶的纳米胺化金属系统硬化

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Density functional theory was used to predict the diffusion and precipitation of Cr in Cu. The energy barrier of Cr diffusion in Cu is comparable to the self-diffusion of Cr, and higher than the energy barrier of Cu self-diffusion. The simulations support the experimentally measured hardness of 30 nm thick nanolaminate layers of Cr/Cu-3.4%Cr. As-deposited films had a hardness of 6.25 GPa; annealing at 373 K decreased hardness to 5.95 GPa, while annealing at 573 IC increased the hardness to 6.6 GPa. Transmission electron microscopy indicates there is significant local strain due to precipitation, in agreement with theoretical predictions. (C) 2017 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

机译：密度函数理论用于预测Cu中Cr的扩散和沉淀。 Cr扩散的Cr扩散的能量屏障与Cr的自扩散相当，高于Cu自扩散的能量屏障。模拟支持基础测量的300nm厚的Cr / Cu-3.4％Cr的纳米胺层的实验测定的硬度。沉积的薄膜具有6.25GPa的硬度; 在373 k下退火降低硬度至5.95GPa，在573 IC下退火将硬度增加到6.6GPa。透射电子显微镜表明，由于沉淀，与理论预测一致，由于降水存在显着的局部应变。（c）2017 Acta Materialia Inc. elsevier有限公司出版。保留所有权利。

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来源
《Scripta materialia》 |2017年第2017期|共4页
作者
Kim Chang-Eun; Rahimi Raheleh M.; Maxwell Tyler L.; Balk T. John; Bahr David F.;
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作者单位

Purdue Univ Sch Mat Engn W Lafayette IN 47907 USA;

Purdue Univ Sch Mat Engn W Lafayette IN 47907 USA;

Univ Kentucky Dept Chem &

Mat Engn Lexington KY USA;

Univ Kentucky Dept Chem &

Mat Engn Lexington KY USA;

Purdue Univ Sch Mat Engn W Lafayette IN 47907 USA;

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正文语种 eng
中图分类冶金工业;
关键词
Sputtering; Multilayers; Precipitation; Density functional theory (DFT); Nanoindentation;

机译：溅射;多层;降水;密度泛函理论（DFT）;纳米endentation;

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1. Age-hardening in a two component immiscible nanolaminate metal system [J] . Kim Chang-Eun, Rahimi Raheleh M., Maxwell Tyler L., Scripta materialia . 2017,第期

机译：两个组分不混溶的纳米胺化金属系统硬化
2. Computerized prediction of interaction parameters and phase diagrams of the immiscible binary systems of nontransition-nontransition metals [J] . Wenming Zeng, Jinkun Guo, Nianyi Chen, Calphad: Computer Coupling of Phase Diagrams and Thermochemistry . 1997,第3期

机译：非过渡非过渡金属不混溶二元体系相互作用参数和相图的计算机预测
3. A Continuum Deformation Model for Steel Coated with Nanolaminate Metallic Systems [J] . Anazi Mohammed H., Zbib Hussein M. Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2018,第12期

机译：纳米含金属系统涂层钢连续晶体变形模型
4. Developments in Nanolaminated Materials to Enhance the Performance and Longevity of Metal Components in Offshore Applications [C] . Christina Lomasney, Leslie Collinson, Timm Burnett American Institute of Mining, Metallurgical and Petroleum Engineers;American Institute of Chemical Engineers;American Association of Petroleum Geologists;Offshore Technology Conference . 2015

机译：纳米层压材料的发展，以提高海上应用中金属部件的性能和寿命
5. Solubilization of multi-component immiscible liquids in homogeneous systems: A comparison of different flushing agents using a 2-D flow cell [D] . Harvell, Jason Randall 2012

机译：多组分不混溶液体在均相系统中的增溶：使用2-D流通池的不同冲洗剂的比较
6. An intimate link: two-component signal transduction systems and metal transport systems in bacteria [O] . Kamna Singh, Dilani B Senadheera, Dennis G Cvitkovitch -1

机译：密切的联系：细菌中的两组分信号转导系统和金属转运系统
7. Exploiting Commonly-Reported Age-Hardening Data and Discovering Systematics Across Metallic Alloys and Alloy Systems to Identify Corrosion’s Most Influential Factors [O] . Robert Hackenberg, Jessica Lopez 2020

机译：利用普通报告的年龄硬化数据和在金属合金和合金系统上发现系统性，以识别腐蚀最有影响力的因素
8. Critical Behavior of Metallic Immiscible Liquid Binary Systems [R] . Schuermann, H. K. 1971

机译：金属不混溶液体二元体系的临界行为

Age-hardening in a two component immiscible nanolaminate metal system

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