Temperature-Dependent Plastic Deformation Behavior of Cu-Ni Alloys: Coupled Influence of Stacking Fault Energy and Short Range Clustering

机译：Cu-Ni合金的温度依赖性塑性变形行为：堆叠故障能量和短程聚类的耦合影响

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The uniaxial tensile tests were conducted at different temperatures to explore the coupled influence of stacking fault energy (SFE) and short-range clustering (SRC) on the plastic deformation behavior of Cu-Ni alloys. The results demonstrate that the ultimate tensile strength and uniform elongation decrease with increasing temperature due to the competitive influence of SFE and SRC. Dynamic strain aging (DSA) effect is observed at 200 and 250°C, and such an effect becomes more notable with increasing Ni content. The occurrence of DSA effect is thought to be caused by pinning of moving dislocations by SRC and diffusing solute atoms. The plastic deformation mechanisms for Cu-Ni alloys is mainly governed by wavy slip of dislocations at different temperatures, since the SFE of Cu-Ni alloys are very high especially at high temperatures, and the effect of SRC can be nearly ignored.

机译：单轴拉伸试验在不同温度下进行，探讨堆叠故障能量（SFE）和短程聚类（SRC）对Cu-Ni合金的塑性变形行为的耦合影响。结果表明，由于SFE和SRC的竞争影响，增强抗拉强度和均匀的伸长率随着温度的增加而降低。在200和250℃下观察到动态应变老化（DSA）效应，并且随着Ni含量的增加，这种效果变得更值。认为DSA效应的发生是通过通过SRC和漫射溶质原子钉入移动脱位而引起的。 Cu-Ni合金的塑性变形机制主要由不同温度下脱位的波浪滑动来控制，因为Cu-Ni合金的SFE特别高，特别是在高温下，并且可以几乎忽略SRC的效果。

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《International conference on functional materials and metallurgy》|2019年|viii 154 p.|共6页
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Ying Wang; Dong Han; Xiao-Wu Li;
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中图分类工程材料学;
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Cu-Ni alloy; Dynamic strain aging; Stacking fault energy; Short-range cluster; Tension; plastic deformation; Temperature;

机译：Cu-Ni合金;动态应变老化;堆叠故障能量;短距离簇;张力;塑性变形;温度;
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Temperature-Dependent Plastic Deformation Behavior of Cu-Ni Alloys: Coupled Influence of Stacking Fault Energy and Short Range Clustering

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