航空钛合金表面激光熔覆Ti3Al基复合涂层的组织性能分析*

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[1]　傅恒志. 未来航空发动机材料面临的挑战与发展趋势. 航空材料学报，1999，18(4)：52-61.
[2]　王华明. 金属材料激光表面改性与高性能金属零件激光快速成型技术研究发展. 航空学报，2002，23(5): 473-478.
[3]　Man H C, Zhang S, Cheng F T, et al. In situ formation of a TiN/Ti metal matrix composite gradient coating on NiTi by laser cladding and nitriding. Surface and Coatings Technology, 2006, 200(16/17): 4961-4966.
[4]　左铁钏，陈虹，张冬云，等. 激光制造技术在航空领域中的应用. 航空制造技术. 2008(21): 32-34.
[5]　孙荣禄，杨贤金. TC4表面激光熔覆TiC和TiC-NiCrBSi涂层的微观组织研究. 应用激光, 2005, 25(2): 93-96.
[6]　刘喜明. Co基自熔合金+WC送粉激光熔覆层再加热冷却过程中的显微组织变化特征. 稀有金属材料与工程, 2007, 36(4): 621-624.
[7]　Du, B S, Zou Z D, Wang X H, et al. In situ synthesis of TiB2/Fe composite coating by laser cladding. Materials Letters, 2008, 62(4/5): 689-691.
[8]　孙荣禄，杨贤金. TC4合金表面激光熔覆NiCrBSi+TiC粉末涂层的微观组织研究. 金属热处理，2006，31(3): 27-29.
[9]　Guo B G, Zhou J S, Zhang S T, et al. Microstructure and tribological properties of in situ synthesized TiN-Ti3Al intermetallic matrix composite coatings on titanium by laser cladding and laser nitriding. Materials Science and Engineering A, 2008, 480(1/2): 404-410.
[10]　Li Z, Gao W, Liang J, et al. Oxidation behaviour of Ti3Al-TiC composites. Materials Letters, 2003, 57(13/14): 1970-1976.
[11]　Tian Y S, Cheng C Z, Chen L X, et al. Crack-free wear resistance coatings produced on pure titanium and Ti-6Al-4V by laser nitriding. Surface review and letters, 2005, 12(5/6): 741-744.
[12]　 Li J N, Chen C Z, Cui B B, et al. Surface modification of titanium alloy with the Ti3Al+TiB2/TiN composite coatings. Surface and Interface Analysis, 2011, 43(12): 1543-1548.
[13]　Li J N，Gong S L, Liu H, et al. Physical properties and microstructures of Fe3Al matrix laser amorphous-nanocrystals reinforced coating. Materials Letters, 2013, 92(1): 235-238.
[14]　赵高敏，王昆林，李传刚. 稀土对Fe基合金激光熔覆层抗磨性能的影响. 摩擦学学报， 2004，24(4): 318-321.
[15]　Li M X, He Y Z, Yuan X M. Effect of nano-Y2O3 on microstructure of laser cladding cobalt-based alloy coatings. Applied Surface Science, 2006, 252(8): 2882-2887.
[16]　尚丽娟，贺春林，才庆魁，等. 应用稀土及激光熔覆工艺制备钴基合金梯度涂层. 中国有色金属学报， 2002，12(4): 653-657.
[17]　Liu G H, Li J T, He B. Melt-casting of Si-Al-Y-O glasses and glass-ceramics by combustion synthesis under high gravity. Journal of Non-Crystalline Solids, 2011, 357(1): 1764-1767.
[18]　Li J N, Chen C Z, Wang D G. Surface modification of titanium alloy with Laser cladding RE oxides reinforced Ti3Al-matrix composites. Composites Part B: Engineering, 2012, 43(3): 1207-1212.
[19]　Choudhury A R, Ezz T, Chatterjee S, et al. Microstructure and tribological behaviour of nano-structured metal matrix composite boride coatings synthesized by combined laser and sol-gel technology. Surface and Coatings Technology. 2008, 202(13): 2817-2829.
[20]　黄拿灿，胡社军. 稀土表面改性及其应用. 北京: 国防工业出版社，2007.
[21]　张邦维. 纳米材料物理基础. 北京: 化学工业出版社, 2009.
[22]　Li J N, Yu H J, Chen C Z, et al. Gong. Physical properties and formation mechanism of copper/glass modified laser nanocrystals-amorphous reinforced coatings. The Journal of Physical Chemistry C, 2013, 117(9): 4568-4573.