[1] Samit Kapoor. High-Temperature Hardness and Wear Resistance of Stellite Alloys[D]. Carleton University,Master of Applied Science, 2012:17-30.[2] S.M. GAYTAN, L.E. MURR, E. MARTINEZ, etal. Comparison of Microstructures and Mechanical Properties for Solid and Mesh Cobalt-Base Alloy Prototypes Fabricated by Electron Beam Melting[J].Metallurgical and meterials teansactions A,2010,41A,3216-3227.[3]Alireza Khoddamzadeh. Development of Carbon Fiber Reinforced Stellite Alloy Based Composites for Tribocorrosion Applications[D]. Doctor of Philosophy, Carleton University Ottawa,June, 2012, 14~17.[4]A.Farnia, F.Malek Ghaini, J.C.Rao, etal. Effect of Ta on the microstructure and hardness of Stellite 6 coating deposited by low power pulse laser treatments[J].Surface & Coatings Technology,2012,213,278~284.[5]徐锐. 航空发动机涡轮叶片锯齿冠耐磨涂层高温磨损性能研究[D].武汉理工大学硕士学位论文,2014:1~8.[6]孙勇汉,张斌,陈礼顺.航空发动机涂层技术研究及进展[J].航空制造技术,2013,(9):84-87.[7] 王璐. 热喷涂技术在先进航空发动机上的应用及前景展望[J].有色金属(冶炼部分),2008,增刊:7-9.[8] D.GUPTA, B.L.MORDIKE, S.SHARIFF, ETAL. Laser Surface Cladding of EN19 Steel with Stellite 6 for Improved Wear Resistance[J]. Lasers in Eng,2010,19:317-330.[9] YUCEL BIROL,AGCA B.KAYIHAN. Thermal Fatigue Testing of Plasma Transfer Arc Stellite Coatings on Hot Work Tool Steels under Steel Thixoforming Conditions[J]. METALLURGICAL AND METERIALS TRANSACTIONS A, 2011,42A,3277-3282.[10] H.Singh, B.S.Sidhu, D.Puri,etal. Use of plasma spray technology for deposition of high temperature oxidation/corrosion resistant coatings-a review[J].Materials and Corrosion,2007,58(2):92-102.[11]Chen,C J ,Wang, M C,Wang, D S,etal. Characterisations of electrospark deposition Stellite 6 alloy coating on 316L sealed valve used in nuclear power plant[J]. Materials Science and Technology, 2010, 26: 276~280.[12]华绍春,王汉功,汪刘应等.热喷涂技术的研究进展[J]. 金属热处理,2008,33(5):82-87.[13]H.Singh, B.S.Sidhu, D.Puri,etal. Use of plasma spray technology for deposition of high temperature oxidation/corrosion resistant coatings-a review[J].Materials and Corrosion,2007,58(2):92~102.[14] T.S.Sidhu,S.Prakash,R.D.Agrawal. STUDIES ON THE PROPERTIES OF HIGH-VELOCITY OXY-FUEL THERMAL SPRAY COATINGS FOR HIGHER TEMPERATURE APPLICATIONS[J].Materials Science, 2005,41(6):805-823.[15]S.Paul, M.D.F.Harvey. Corrosion Testing of HVOF Coatings in High Temperature Environments for Biomass Applications[C]. International Thermal Spray Conference & Exposition(ITSC)2012:403~407.[16]S.Houdkova, M.Kasparova, Z Cesanek. Wear resistant HVOF coatings for high temperature applications[C]. International Thermal Spray Conference & Exposition (ITSC), 2014: 506-512.[17]Sheng Hong, Yuping Wu, Yugui Zheng, etal. Effect of Spray Parameters on the Corrosion Behavior of HVOF Sprayed WC-Co-Cr Coatings [J]. Journal of Materials Engineering and Performance, 2014,23(4): 1434-1439.[18]M. Taheri, Z. Valefi and K. Zangeneh-Madar. Influence of HVOF process parameters on microstructure and bond strength of NiCrAlY Coatings [J]. Surface Engineering 2012, 28(4) 266-271.[19]吴子健,吴朝军,曾克里,等.热喷涂技术与应用[M].北京,机械工业出版社,2005.18-19.[20]J.Y.Cho, S.H.Zhang, T.Y.Cho. The processing optimization and property evaluations of HVOF Co-base alloy T800 coating[J].Journal Materials Science,2009,44:6348~6355.[21]Tillmann, W., Baumann, I. , Hollingsworth, P. ; Dildrop, M. etal. Influence of the handling parameters on the characteristics of Hvof sprayed coatings processed by means of fine WC-12Co (2-10μm) powders[C]. International Thermal Spray Conference & Exposition (ITSC), 2014: 324-332.[22] C.Lyphout, P.Nylen, L.Ostergren, et al. Relationships between Process Parameters, Microstructure and Adhesion Strength of HVOF Sprayed IN718 Coatings[C]. International Thermal Spray Conference & Exposition (ITSC), 2010: 476-481.[23] S. Kamis a, S. Gua, Numerical modeling the bonding mechanism of HVOF sprayed particles[J]. Computational Materials Science 46,2009:1038-1043.[24] 黎樵燊,朱又春.金属表面热喷涂技术[M].北京,化学工业出版社,2009:15-17. |