弥散强化Ni-Co合金的蠕变

J. Hancock, I. Dillamore, R. Smallman
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引用次数: 7

摘要

摘要研究了三种含Co分别为0,30和67%的Ni-Co-2.5% A12O3合金在770和1000 K温度下的蠕变行为。结果表明,在这两个范围内,稳态蠕变速率取决于应力的四次方。在较低温度下,Co含量为0、30和67%的合金的活化能分别为85、184和121 kJ/mol。在较高的温度下,活化能与自扩散的活化能相对应,并且像指数前项一样,除了扩散率的微小变化外,基本上与成分无关。低温蠕变可以用热激活的交叉滑移和管道扩散机制来解释,这种机制使位错能够绕过颗粒。在较高的温度下,体扩散是速率控制过程,没有任何明显的组分依赖是由于位错分布主要由位错决定的。
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The Creep of Dispersion-Strengthened Ni–Co Alloys
AbstractThe creep behaviour of three Ni–Co–2.5% A12O3 alloys containing 0, 30) and 67% Co has been studied at temperatures in the region of 770 and 1000 K. It is shown that in both ranges the steady-state creep rate depends upon stress to the power four. At the lower temperature the activation energy is composition-dependent, values of 85, 184, and 121 kJ/mol being recorded for the 0, 30, and 67% Co alloys, respectively. At the higher temperature the activation energy corresponds with that for self-diffusion and, like the pre-exponential term, is essentially independent of composition except through small variations in diffusivity. The low-temperature creep is explained in terms of a thermally activated cross-slip and pipe-diffusion mechanism that enables dislocations to by-pass particles. At the higher temperature it is suggested that bulk diffusion is the rate-controlling process and that the absence of any marked composition-dependence is due to the jog distribution being determined mainly by dislocati...
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