Effect of cellular recrystallization on tensile properties of a nickel-based single crystal superalloy containing Re and Ru

IF 3.1 2区材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING Journal of Iron and Steel Research(International) Pub Date : 2017-10-01 DOI:10.1016/S1006-706X(17)30153-X

Zhen-xue Shi, Shi-zhong Liu, Xiao-dai Yue, Li-jie Hu, Wan-peng Yang, Xiao-guang Wang, Jia-rong Li

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引用次数: 5

Abstract

A nickel-based single crystal superalloy containing Re and Ru was cast in a directional solidification furnace. The single crystal specimens after standard heat treatment were grit blasted with different pressures and then heat treated at 1100 °C for 4 h under vacuum condition. The evolution of recrystallized microstructure and its effect on the tensile properties at 850 and 980 °C were investigated. After heat treatment, the cellular microstructure was observed, and the thickness of the cellular recrystallization zone increases with the increase in grit blasting pressure. The appearance of the cellular structure undermines the tensile properties. Both the tensile strength and elongation decrease with increasing the thickness of the cellular structure. The recrystallized grain boundaries can act as the channels for the crack initiation and propagation during tensile test. The low bearing capacity of recrystallized layers and the local stress concentration resulting from the notch effect of cracking were the main reasons for the decrease of tensile properties.

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细胞再结晶对含Re、Ru镍基单晶高温合金拉伸性能的影响

摘要:在定向凝固炉中铸造了一种含稀土和钌的镍基单晶高温合金。标准热处理后的单晶试样在不同压力下喷砂，然后在1100℃真空条件下热处理4h。研究了850和980℃时再结晶组织的演变及其对拉伸性能的影响。热处理后观察到胞状组织，随着喷砂压力的增加，胞状再结晶区厚度增大。细胞结构的出现破坏了拉伸性能。拉伸强度和伸长率均随胞状结构厚度的增加而降低。在拉伸试验中，再结晶晶界是裂纹萌生和扩展的通道。再结晶层承载能力低和裂纹缺口效应引起的局部应力集中是导致拉伸性能下降的主要原因。

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