Determining the optimal stacking fault energy for achieving high ductility in ultrafine-grained Cu-Zn alloys

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

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Determining the optimal stacking fault energy for achieving high ductility in ultrafine-grained Cu-Zn alloys

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

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Bulk ultrafine-grained (UFG) materials produced by severe plastic deformation (SPD) often have low ductility. A previous study demonstrated the possibility of lowering the stacking fault energy to simultaneously increase the strength and ductility. This paper demonstrates, there exists an optimal stacking fault energy for the best ductility in UFG Cu-Zn alloys processed by the same SPD processing. When the stacking fault energy is too low, the grain size lies below 15 nm after SPD processing and the stacking faults are saturated so that it is difficult to accumulate dislocations and deformation twins during the subsequent tensile testing. These results provide significant guidance for the future design of UFG and nanocrystalline alloys for achieving high ductilities.

机译：严重的塑性变形（SPD）产生的块状超细颗粒（UFG）材料通常具有较低的延展性。先前的研究表明，降低堆垛层错能量以同时增加强度和延展性的可能性。本文证明，在用相同的SPD工艺处理的UFG Cu-Zn合金中，存在用于最佳延展性的最佳堆垛层错能。当堆垛层错能量太低时，SPD处理后晶粒尺寸小于15 nm，并且堆垛层错饱和，因此在随后的拉伸试验中难以积累位错和形变孪晶。这些结果为UFG和纳米晶合金的未来设计提供了重要的指导，以实现高延展性。

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《Materials Science and Engineering》 |2008年第2期|123-129|共7页
作者
Y.H. Zhao; X.Z. Liao; Z. Horita; T.G. Langdon; Y.T. Zhu;
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正文语种 eng
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copper alloys; ductility; high-pressure torsion; severe plastic deformation; stacking fault energy;

机译：铜合金延展性高压扭力严重的塑性变形;堆积故障能量;

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1. 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
2. Stacking-fault energy effect on zero-strain deformation twinning in nanocrystalline Cu-Zn alloys [J] . Ma X. L., Zhou H., Narayan J., Scripta materialia . 2015,第Null期

机译：堆垛层错能量对纳米晶Cu-Zn合金零应变变形孪生的影响
3. 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

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5. A first-principles study of stacking faults and long periodic stacking order structures in Mg and Mg alloys [D] . Wang, Yi. 2013

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6. Effect of Alloying Elements on the Stacking FaultEnergy and Ductility in Mg2Si Intermetallic Compounds [O] . Xinpeng Zhao, Keke Song, Haiyou Huang, 2021

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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

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Determining the optimal stacking fault energy for achieving high ductility in ultrafine-grained Cu-Zn alloys

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