Tailoring stacking fault energy for high ductility and high strength in ultrafine grained Cu and its alloy

Y. H. Zhao; Y. T. Zhu; X. Z. Liao; Z. Horita; T. G. Langdon

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Tailoring stacking fault energy for high ductility and high strength in ultrafine grained Cu and its alloy

机译：为超细晶粒铜及其合金量身定制堆垛层错能，以实现高延展性和高强度

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Bulk ultrafine grained (UFG) materials produced by severe plastic deformation often have low ductility. Here the authors report that simultaneous increases in ductility and strength can be achieved by tailoring the stacking fault energy (SFE) via alloying. Specifically, UFG bronze (Cu 10 wt. % Zn) with a SFE of 35 mJ/m~2 was found to have much higher strength and ductility than UFG copper with a SFE of 78 mJ/m~2. Accumulations of both twins and dislocations during tensile testing play a significant role in enhancing the ductility of the UFG bronze. This work demonstrates a strategy for designing UFG alloys with superior mechanical properties.

机译：严重的塑性变形产生的块状超细颗粒（UFG）材料通常具有较低的延展性。作者报告说，通过合金化调整堆垛层错能（SFE）可以同时提高延展性和强度。具体而言，发现SFE为35 mJ / m〜2的UFG青铜（Cu 10 wt。％Zn）比SFE为78 mJ / m〜2的UFG铜具有更高的强度和延展性。拉伸测试过程中孪晶和位错的积累在增强UFG青铜的延展性中起着重要作用。这项工作演示了设计具有优异机械性能的UFG合金的策略。

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来源
《Applied Physics Letters》 |2006年第12期|p.121906.1-121906.3|共3页
作者
Y. H. Zhao; Y. T. Zhu; X. Z. Liao; Z. Horita; T. G. Langdon;
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作者单位

Materials Science and Technology Division, Los Alamos National Laboratory, Los Alamos, New Mexico 87545;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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专利

1. Determining the optimal stacking fault energy for achieving high ductility in ultrafine-grained Cu-Zn alloys [J] . Y.H. Zhao, X.Z. Liao, Z. Horita, Materials Science and Engineering . 2008,第1a2期

机译：确定在超细晶粒Cu-Zn合金中实现高延展性的最佳堆垛层错能
2. The effect of stacking fault energy on equilibrium grain size and tensile properties of ultrafine-grained Cu-Al-Zn alloys processed by rolling [J] . Baozhuang Cai, Jingmei Tao, Wei Wang Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2014,第Null期

机译：堆垛层错能对轧制超细晶粒Cu-Al-Zn合金平衡晶粒尺寸和拉伸性能的影响
3. Evolution of defect structures during cold rolling of ultrafine-grained Cu and Cu-Zn alloys: Influence of stacking fault energy [J] . Y.H. Zhao, Z. Horita, T.G. Langdon, Materials Science and Engineering. A, Structural Materials: Properties, Microstructure and Processing . 2008,第1a2期

机译：超细晶粒铜和铜锌合金冷轧过程中缺陷组织的演变：堆垛层错能的影响
4. On the Influence of the Misorientation of Grains, Grain Size and Boundary Volume on the Strength and Ductility of Ultrafine Grained Cu [C] . Florian H. Dalla Torre, Rimma Lapovok, Peter F. Thomson, Nanoscale Materials and Modeling-Relations Among Processing, Microstructure and Mechanical Properties . 2004

机译：晶粒取向错误，晶粒尺寸和边界体积对超细晶粒铜强度和延展性的影响
5. Quasi-isentropic and shock compression of FCC and BCC metals: Effects of grain size and stacking -fault energy [D] . Jarmakani, Hussam N. 2008

机译：FCC和BCC金属的准等熵和冲击压缩：晶粒尺寸和堆垛层错能的影响
6. Nanoscale spheroidized cementite induced ultrahigh strength-ductility combination in innovatively processed ultrafine-grained low alloy medium-carbon steel [O] . N. Jia, Y. F. Shen, J. W. Liang, -1

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7. Ductility Sensitivity to Stacking Fault Energy and Grain Size in Cu–Al Alloys [O] . Yanzhong Tian, Akinobu Shibata, Zhefeng Zhang, 2016

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8. High temperature deformation of dispersion strengthened nickel alloys. 1 - The influence of initial structure on tensile and creep deformation of TD nickel. 2 - The effect of matrix stacking fault energy on creep of Ni-Cr-ThO2 alloys Final report, 9 Feb. 1967 - 9 Feb. 1968 [R] . Clauer, A. H., Wilcox, B. A. 1968

机译：分散强化镍合金的高温变形。 1 - 初始结构对TD镍拉伸和蠕变变形的影响。 2 - 基体堆垛层错能量对Ni-Cr-ThO2合金蠕变的影响最终报告，1967年2月9日 - 1968年2月9日

Tailoring stacking fault energy for high ductility and high strength in ultrafine grained Cu and its alloy

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