NiAl-25%Cr合金的高温蠕变行为  被引量:7

High-temperature creep behavior of NiAl-25%Cr alloy

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作  者:张光业[1] 郭建亭[1] 张华 

机构地区:[1]中国科学院金属研究所,沈阳110016 [2]湖南科技大学机械设备健康维护省重点实验室,湘潭411201

出  处:《中国有色金属学报》2006年第11期1882-1887,共6页The Chinese Journal of Nonferrous Metals

基  金:国家自然科学基金重大资助项目(59895152);国家高技术研究发展计划资助项目(8637150050030)

摘  要:研究挤压NiAl-25Cr合金在1073~1123K温度区间的蠕变行为。结果表明:在实验温度区域内,挤压NiAl-25Cr合金表现出两种明显不同的蠕变机制;在低温区域中,由位错的滑移和攀移控制蠕变变形过程;而在高温区域中,位错粘滞滑移控制蠕变变形过程。在研究蠕变的温度范围内,合金的蠕变表观激活能高于Ni的晶格自扩散能,这可以解释为在蠕变瞬时变形过程中,第二相粒子沿着基体相运动的结果,第二相粒子可能是γ-Ni3Al相或α-Cr相。The creep behavior and mechanisms of extruded NiAl-25Cr alloy at elevated temperatures were investigated. The results of the analysis of the creep data in the temperature range of 1 073 -1 123 K reveals two distinct regions of creep behavior in this material. At lower temperature, the creep characteristics are consistent with a structure controlled creep process where some form of dislocation climb controls the creep deformation. At higher temperature, the creep characteristics are consistent with mobility-controlled deformation where viscous glide of dislocations controls the creep. The apparent activation energies determined for creep in both regions exceed by a considerable amount, the value for lattice self-diffusion in Ni. This can be explained in terms of the simultaneous deformation of second phase particles along with the Ni matrix during creep, The second phase most likely deforming along with the Ni matrix is the γ-Ni3 Al and α-Cr phase.

关 键 词:NIAL 金属间化合物 高温蠕变 

分 类 号:TG146.5[一般工业技术—材料科学与工程]

 

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