航空发动机钛火预防技术研究的进展
Progress in titanium fire resistant technology for aero-engine
-
摘要: 针对航空发动机防钛火的控制技术,结合国内外相关工作的研究状况,从钛火机制分析、防钛火阻燃合金的作用机制、阻燃钛合金体系研究状况、阻燃涂层的研究及防钛火结构设计等方面,对航空发动机钛火控制技术领域取得的研究成果进行总结和分析.重点论述了各国先进航空发动机中良好的钛火预防技术,并提出我国应建立钛合金启燃与环境(温度、压力、流速)的关系,从根本上解决了阻燃钛合金工程化问题上存在的风险.Abstract: According to the titanium fire resistant technology for aero-engine, the research condition of titanium fire resistant technology was generalized and analyzed from several aspects, which include the analysis of mechanisms of titanium fire and burn resistant, the research conditions of burn resistant alloy system and burn resistant coat, and the structural design of burn resistance related to the abroad research situation.The research results of titanium fire resistant technology were mainly introduced.Meanwhile, when the ralationship is established between titanium alloy Kai-burning and environments, the risk problems of burn resistant titanium alloy in the construction are fundamentally solved.
-
[1] 韩民臣,黄淑梅.钛在美国军工中的应用[J].金属世界,2001(5):1-2.HAN Minchen,HUANG Shumei.Military application of titanium in the United States[J].Metal World,2001(5):1-2.(in Chinese) [2] Krammer P, Rued k. Technology preparation for green aero-engines[J].Aircraft Propulsion and Power,2003,6(10):14-17. [3] Charles W.Review of titanium application in gas turbine engines[R].ASME Paper GT2003-38862,2003. [4] 邓炬.钛与航空[J].钛工业进展,2004,21(2):6-15.DENG Jü.Titanium and aviation[J].Titanium Industry Progress,2004,21(2):6-15.(in Chinese) [5] 杨健.钛合金在飞机上应用[J].航空制造技术,2006,(11):41-43.YANG Jian.Applications of titanium alloy in aircraft[J].Aeronautical Manufacturing Technology,2006(11):41-43.(in Chinese) [6] 霍武军,孙护国.航空发动机钛火故障及防护技术[J].航空科学技术,2002(4):32-34.HUO Wujun,SUN Huguo.Titanium-fire fault and prevention technologies in aero-engine[J].Aeronautical Science and Technology,2002(4):32-34.(in Chinese) [7] 陈光.高压压气机钛着火的危害与防止措施[J].国际航空,1995(1):40-42.CHEN Guang.Titanium fire hazards and prevention measures of high pressure compressor[J].International Aviation,1995(1):40-42.(in Chinese) [8] Filonenko A K.Spin combustion of titanium under reduced pressure[J].International Journal of Self-propagating High Temperature Synthesis,1992,1(1):19-21. [9] Gunaji M V,Sinar S,Beeson H D.Ignition and combustion of titanium and titanium alloys[J].ASTM Special Technical,1995(1267):81-85. [10] 王文波,贺志勇,王振霞,等.双辉等离子表面合金化技术形成表面阻燃钛合金的展望[J].世界科技研究与进展,2005,27(3):37-39.WANG Wenbo,HE Zhiyong,WANG Zhenxia,et al.Prospect of forming surface burn-resistant titanium alloys by double glow plasma surface alloying technology[J].World Sci.Tech. R&D,2005,27(3):37-39.(in Chinese) [11] Littman F E,Church F M,Kinder E M,et al.A study of metal ignitions and the spontaneous ignition of titanium[J].Journal of Less Common Metal,1996,3(5):367-378 [12] Anderson V G,Funkhouser M E.Titanium coating ignition test[R].FAA,AD-A1111819,1982. [13] Strobridge T S,Moulder J C,Alan F.Titanium Combustion in Turbine Engines[R].FAA,AD-A075657,1979. [14] 黄旭,曹春晓,马济民.航空发动机钛燃烧及阻燃钛合金[J].材料工程,1997(8):11-14.HUANG Xu,CAO Chunxiao,MA Jimin et al.Titanium combustion in aeroengines and fire-esistant titanium alloys[J].Materials Engineering,1997(8):11-14.(in Chinese) [15] 雷力明,黄旭,王宝,等.阻燃钛合金的研究和发展[J].材料导报,2003,17(5):21-22.LEI Liming,HUANG Xu,WANG Bao,et al.Research and development of non-burning titanium alloys[J].Mat楥瑲楩慡瑬敳搠?楥湶?慥?挬漲渰琰爳漬氱氷攨搵?愺椲爱猭琲爲攮愨浩孮删嵃??敮摥敳牥愩氼??瘾楛愱琶楝漠湋??摩浳楥湬椠獇琮爠慈瑩楧潨渭?剴敲灥潮牧瑴?????ちの??????????? ignition[J].Advances Materials & Process,1993(9):58-62. [16] 赵永庆,周廉,邓炬.Ti40合金的阻燃性能及其阻燃机理分析[J].稀有金属材料与工程,1999,28(2):77-80.ZHAO Yongqing,ZHOU Lian,DENG Ju.Burning resistant behavior and mechanism of a Ti40 alloy[J].Rare Metal Materials and Engineering,1999,28(2):77-80.(in Chinese) [17] 周廉,周义则,赵永庆,等.阻燃钛合金Ti40的热加工力学性能研究[J].西北工业大学学报,2003,21(4):381-386.ZHOU Lian,ZHOU Yize,ZHAO Yongqing,et al.Processing and mechanical properties of non-burning titanium alloys[J].Journal of Northwestern Polytechnical University,2003,21(4):381-386.(in Chinese) [18] Bania P J.Beta titanium alloys and their role in the titanium industry[J].Journal of the Minerals,1994(6):16-20. [19] 魏东博,张平则,姚正军,等.钛合金阻燃技术的研究进展[J].机械工程材料,2010,34(8):1-5.WEI Dongbo,ZHANG Pingze,YAO Zhengjun.Research progress of burning-resistant technology of titanium alloy[J].Materials for Mechanical Engineering,2010,34(8):1-5.(in Chinese) [20] Kneise L G.High strength titanium resisting ignition[J].Advance Materials & Process,1993(9):58-62. [21] Eylon D.High-temperature titanium alloys[J].Journal of Materials,1984,1:55-62. [22] Berczik D M.High strength non-burning beta titanium alloy:U.K,GB2238057A[P].1991-05-22. [23] Rodney R B.The international workshop on beta titanium alloys [J].Journal of the Meterials,1994(7):54-58. [24] 孙护国,霍武军.航空发动机钛合金机件的阻燃技术[J].航空制造技术,2003(1):46-48.SUN Huguo,HUO Wujun.Anti-combustion technologies for titanium alloys parts in aeroengine [J].Aeronautical Manufacturing Technology,2003(1):46-48.(in Chinese) [25] 黄旭.钛合金 阻燃机理研究[D].西安:西北工业大学,1998.HUANG Xu.Burning-resistant technology of titanium alloy[D].Xi'an:Northwestern Polytechnical University,1998.(in Chinese) [26] 骆更新,陈珠琳.航空发动机钛合金燃烧问题及涂层防护技术[J].航空制造工程,1994(2):20-21.LUO Gengxin,CHEN Zhulin.Titanium alloy burning problems and coating protection technology in aeroengine[J].Aeronautical Manufacturing Technology,1994(2):20-21.(in Chinese) [27] Seward W A.Combustion of titanium laser in
点击查看大图
计量
- 文章访问数: 1758
- HTML浏览量: 20
- PDF量: 1711
- 被引次数: 0