The Creep of Copper, Copper–10 at.-% Nickel, and Copper–10 at.-% Gold

B. L. Jones, C. Sellars
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引用次数: 24

Abstract

Abstract The creep of copper, copper–10 at.-% nickel and copper–10 at.-% gold has been investigated at 600 and 800° C (875 and 1075 K) for stresses in the range 1000–7500 lbf/in2 (6·9-51·7MN/m2). Subgrain sizes, etch-pit densities, and the contribution of grain-boundary sliding to creep have been determined and dislocation structures examined by thin-foil electron microscopy. The stress exponent of creep rate for copper and copper–10 at.-% nickel is ≃ 5 and that for copper–10 at.-% gold is ≃ 3. Stress-decrement experiments indicate that the effect of nickel is to reduce the rate of the controlling recovery process, whereas the addition of gold changes the controlling process to one of viscous glide of dislocations.
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铜的蠕变,Copper - 10 at。-%镍和- 10%铜。- %黄金
摘要:铜的蠕变,铜- 10 at。-%镍和铜- 10 at。-在600°C和800°C(875和1075 K)下,在1000-7500 lbf/in2 (6.9 - 51.7 mn /m2)的应力范围内研究了%金。测定了亚晶粒尺寸、蚀刻坑密度和晶界滑动对蠕变的贡献,并用薄膜电子显微镜检查了位错结构。铜和铜- 10的蠕变速率的应力指数。镍为5,铜为10。-金是≃3。应力减量实验表明,镍的作用是降低控制回收过程的速度,而金的加入使控制过程转变为位错的粘滞滑动过程。
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