Research on 650°C High Temperature Titanium Alloy Technology for Aero-Engine

CHEN Ziyong; LIU Yingying; JIN Yanfang; MA Xiaozhao; CHAI Lihua; CUI Yapeng

doi:10.16080/j.issn1671–833x.2019.19.022

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Research on 650°C High Temperature Titanium Alloy Technology for Aero-Engine

更新时间：2025-10-30

- Research on 650°C High Temperature Titanium Alloy Technology for Aero-Engine
- Aeronautical Manufacturing Technology Vol. 62, Issue 19, Pages: 22-30(2019)
- 作者机构：
  
  北京工业大学材料科学与工程学院,北京,100124
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671–833x.2019.19.022
  CLC：
- Published：2019
- 稿件说明：
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陈子勇，刘莹莹，靳艳芳，马小昭，柴丽华，崔亚鹏. 航空发动机用耐650℃高温钛合金研究现状与进展[J]. 航空制造技术, 2019, 62(19): 22-30.

CHEN Ziyong, LIU Yingying, JIN Yanfang, MA Xiaozhao, CHAI Lihua, CUI Yapeng. Research on 650°C High Temperature Titanium Alloy Technology for Aero-Engine. Aeronautical Manufacturing Technology, 2019, 62(19): 22-30.
陈子勇，刘莹莹，靳艳芳，马小昭，柴丽华，崔亚鹏. 航空发动机用耐650℃高温钛合金研究现状与进展[J]. 航空制造技术, 2019, 62(19): 22-30. DOI： 10.16080/j.issn1671–833x.2019.19.022.

CHEN Ziyong, LIU Yingying, JIN Yanfang, MA Xiaozhao, CHAI Lihua, CUI Yapeng. Research on 650°C High Temperature Titanium Alloy Technology for Aero-Engine. Aeronautical Manufacturing Technology, 2019, 62(19): 22-30. DOI： 10.16080/j.issn1671–833x.2019.19.022.

摘要

高温钛合金具有比强度高、耐高温、蠕变抗性、疲劳性能良好等优点，是航空发动机盘件、叶片等热端关键部件的重要结构材料。同时，相比于铝、镁轻合金，钛合金高温性能优异，因而在航空发动机耐热构件的选材当中越来越受青睐。在总结各国近年来发展高温钛合金思路的基础上，依据传统近α 型Ti–Al–Sn–Zr–Mo–Si 系高温钛合金的设计思想，分别添加微量元素Er 和Re，设计了具有自主知识产权的Ti–6.5Al–2.5Sn–9Zr–0.5Mo–1Nb–1W–0.25Si–0.1Er 和Ti–6.5Al–2.5Sn–9Zr–0.5Mo–1Nb–1W–0.25Si–0.1Re 两种耐650℃ 高温钛合金。通过对新合金热加工工艺和热处理制度的优化，使合金达到了热强性、热稳定性和蠕变抗性的最佳匹配模式。为高温钛合金在航空航天领域的应用提供试验依据和理论基础。

Abstract

High temperature titanium alloy has the advantages of high specific strength

high temperature resistance

creep resistance

and good fatigue performance. It is an important structural material for key components such as aero-engine disk parts and blades. At the same time

compared with aluminum and magnesium light alloys

titanium alloys have excellent high temperature performance

and thus have considerable application potential in aero-engine high temperature resistant parts. Conventional near-α type high-temperature titanium alloys have difficulty in coordinating heat and thermal stability

a sharp drop in high-temperature oxidation resistance

and a titanium fire problem in local components. According to the design idea of traditional near–α–type Ti–Al–Sn–Zr–Mo–Si hightemperature titanium alloy

the trace elements Er and Re were added respectively

and Ti–6.5Al–2.5Sn–9Zr–0.5Mo–1Nb–1W–0.25Si–0.1Er and Ti–6.5Al–2.5Sn–9Zr–0.5Mo–1Nb–1W–0.25Si–0.1Re two kinds of high temperature resistant titanium alloys for 650℃ with independent intellectual property rights were designed. The best matching mode for thermal strength

thermal stability and creep resistance is sought from the perspective of regulating the thermal processing process and optimizing the heat treatment system. It provides experimental and theoretical basis for the application of high temperature titanium alloy in the aerospace industry.

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