High temperature creep in precipitation strengthened Cu-2Fe alloy

Metal science Pub Date : 1984-03-01 DOI:10.1179/MSC.1984.18.3.137
K. Kuchařová, F. Dobeš, A. Orlová, K. Milička, J. Čadek
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引用次数: 4

Abstract

AbstractResults of an investigation of creep in a Cu-2Fe alloy strengthened by coherent γ iron particles in the temperature region 673–873 K and the stress region 10–95 MN m−2 are presented and discussed. It is found that, most probably, the Coble diffusion deformation mechanism associated with a threshold stress dominates at low stresses. The thermally activated cutting of γ iron particles, dependent on the creation of a new interface area, has been suggested as another possible mechanism controlling the steady state creep rate in all external conditions. This mechanism probably dominates at least at high stresses. The intergranular creep fracture in the alloy investigated is probably controlled by the same mechanisms as creep itself.
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析出强化Cu-2Fe合金的高温蠕变
摘要:本文介绍并讨论了共格γ铁颗粒强化Cu-2Fe合金在673-873 K温度区和10-95 MN m−2应力区蠕变的研究结果。研究发现,在低应力条件下,与阈值应力相关的Coble扩散变形机制占主导地位。γ铁颗粒的热活化切削依赖于新界面区域的产生,被认为是在所有外部条件下控制稳态蠕变速率的另一种可能机制。这种机制可能至少在高压力下起主导作用。所研究的合金的晶间蠕变断裂可能受到与蠕变本身相同的机制控制。
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Metal science
Metal science
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