HIP 对溶液处理镍基单晶超级合金高温蠕变行为的影响

IF 6.1 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Siliang He , Longfei Li , Song Lu , Yunsong Zhao , Jian Zhang , Qiang Feng
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引用次数: 0

摘要

微孔和残余共晶不利于镍基单晶(SX)超级合金的蠕变行为。通过热等静压(HIP)减少残余共晶和树枝状晶间区的微孔可以提高镍基 SX 超合金的蠕变断裂寿命。在这项工作中,研究了 HIP 温度和压力对蠕变断裂寿命的影响,以及 HIP 处理对在 980 °C/250 MPa 溶液处理状态下的镍基 SX 超合金蠕变行为的影响。结果表明,蠕变断裂寿命的提高主要是由于慢速蠕变阶段的延长。将 HIP 温度从 1280 °C 提高到 1300 °C 可以提高 HIP 处理样品的蠕变断裂寿命。在蠕变过程中,非 HIP 样品内部的微孔不断增加,而经 HIP 处理的样品在蠕变断裂前几乎没有变化。与非 HIP 样品相比,HIP 处理过的样品在树枝间区域的塑性变形相对较弱,从而抑制了蠕变末期微裂纹的产生和扩展。这项研究有助于开发一种方法来改善镍基 SX 超合金在高温下的蠕变性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
HIP effect on the high-temperature creep behavior of a solution-treated nickel-based single crystal superalloy
Micropores and residual eutectics are detrimental to the creep behavior of the nickel-based single crystal (SX) superalloys. The decrease of residual eutectics and micropores in the interdendritic regions by hot isostatic pressing (HIP) can improve the creep rupture life of nickel-based SX superalloy. In this work, the influence of HIP temperature and pressure on the creep rupture life as well as the impact of HIP treatment on creep behavior of nickel-based SX superalloy with solution-treated state at 980 °C/250 MPa were studied. The results show that the improvement of creep rupture life was primarily due to the prolongation of the slow-accelerating creep stage. Increasing HIP temperature from 1280 °C to 1300 °C can raise the creep rupture lives of the HIP-treated samples. During creep, the micropores inside the non-HIP sample increased continuously, whereas that of the HIP-treated sample had little change until creep rupture. The HIP-treated sample had relatively weak plastic deformation in the interdendritic regions compared with the non-HIP sample, suppressing the microcrack initiation and propagation at the end of creep. This study is beneficial for developing a method to improve the creep performance of nickel-based SX superalloys at high temperatures.
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来源期刊
Materials Science and Engineering: A
Materials Science and Engineering: A 工程技术-材料科学:综合
CiteScore
11.50
自引率
15.60%
发文量
1811
审稿时长
31 days
期刊介绍: Materials Science and Engineering A provides an international medium for the publication of theoretical and experimental studies related to the load-bearing capacity of materials as influenced by their basic properties, processing history, microstructure and operating environment. Appropriate submissions to Materials Science and Engineering A should include scientific and/or engineering factors which affect the microstructure - strength relationships of materials and report the changes to mechanical behavior.
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