Phenomenon and Mechanism of High Temperature Low Plasticity in High-Cr Nickel-based Superalloy
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2013年第2期
论文作者:Zhongnan Bi Jianxin Dong Lei Zheng Xishan Xie
文章页码:187 - 192
摘 要:Cr is the most important element in nickel-based alloys to prevent high temperature oxidation and corrosion. However, high-Cr content will lead to a decline of hot workability which limits the addition of Cr for most nickel-based superalloys. In order to add more Cr into Ni-based alloy for improving high temperature oxidation and corrosion resistance, the poor hot workability of high-Cr alloy must be first solved. Deformation characteristic of a high-Cr nickel-based alloy (40 wt% Cr) under hot compression conditions at 800-1200℃ has been investigated by using a Gleeble 3500 machine, and the microstructural evolution during hot working process has been observed by optical microscopy and scanning electron microscopy. The results show that a high-temperature low-plasticity (HTLP) region exists in this high-Cr nickel-based alloy. This phenomenon can be attributed to its non-uniform interdendritic microstructure at high temperatures. These results can explain the poor hot workability of high-Cr nickel-based alloy.
Zhongnan Bi1,2,Jianxin Dong1,Lei Zheng1,Xishan Xie1
1. University of Science and Technology Beijing2. Beijing Key Laboratory of Advanced High Temperature Materials, Central Iron and Steel Research Institute
摘 要:Cr is the most important element in nickel-based alloys to prevent high temperature oxidation and corrosion. However, high-Cr content will lead to a decline of hot workability which limits the addition of Cr for most nickel-based superalloys. In order to add more Cr into Ni-based alloy for improving high temperature oxidation and corrosion resistance, the poor hot workability of high-Cr alloy must be first solved. Deformation characteristic of a high-Cr nickel-based alloy (40 wt% Cr) under hot compression conditions at 800-1200℃ has been investigated by using a Gleeble 3500 machine, and the microstructural evolution during hot working process has been observed by optical microscopy and scanning electron microscopy. The results show that a high-temperature low-plasticity (HTLP) region exists in this high-Cr nickel-based alloy. This phenomenon can be attributed to its non-uniform interdendritic microstructure at high temperatures. These results can explain the poor hot workability of high-Cr nickel-based alloy.
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