介绍了一种新型的超音速火焰喷涂技术--活性燃烧高速燃气喷涂(AC-HVAF),该工艺的喷涂过程对喷涂材料的氧化及热退化影响非常小,可以制备出极低氧化物含量和极高致密度的涂层,该涂层具有优越的耐磨损和耐腐蚀能力,同时其喷涂速度和沉积效率均优于传统超音速火焰喷涂(HVOF).
参考文献
[1] | 徐滨士,马世宁,朱绍华,梁秀兵,Liang Xiubing.表面工程与再制造工程的进展[J].中国表面工程,2001(01):8-14. |
[2] | 师昌绪,徐滨士,张平,刘世参.21世纪表面工程的发展趋势[J].中国表面工程,2001(01):2-7. |
[3] | erndtC;Larernia E J .ThermalsprayprocessingofnanoscalmaterialsⅠ-extendedabstracts[J].Journal of Thermal Spray Technology,1998,7(03):411-440. |
[4] | erndtC .ThermalsprayprocessingofnanoscalmaterialsⅡ-extendedabstracts[J].Journal of Thermal Spray Technology,2001,7(03):147-181. |
[5] | 阎洪.金属表面处理新技术[M].北京:冶金工业出版社,1996:40-42. |
[6] | 苏启 .超音速火焰喷涂技术的发展及应用前景[J].钢铁研究学报,1994,6(01):99-102. |
[7] | Mitchell R. Dorfman .Thermal spray basics[J].Advanced Materials & Processes,2002(7):47-50. |
[8] | KreyeH.A comparison of HVOF systems -behavior of materials and coating properties[A].Erdin,1997(11):13-21. |
[9] | LegouxJG;Arsenault B;Moreau C.Evaluation of four high velocity thermal spray guns using WC-10Co-4Cr cermets[A].Montreal,2000:479-486. |
[10] | T. C. Hanson;C. M. Hackett;G. S. Settles .Independent control of HVOF particle velocity and temperature[J].Journal of Thermal Spray Technology,2002(1):75-85. |
[11] | GilmoreDL;Dykhuizen R C;Neiser R A et al.Particlevelocityanddepositionefficiencyinthecoldsprayprocess[J].Journal of Thermal Spray Technology,1999,4(08):576-582. |
[12] | StoltenhoffT;Voyer J;Kreye H.Cold spraying-state of the art and applicability[A].Essen,2002:366-374. |
[13] | PapyrinAN;Kosarev N F;Klinkov S V.On the interaction of high speed particles with a substrate under the cold spraying[A].Essen,2002:380-384. |
[14] | VerstakA;Baranovski V.Activated combustion HVAF coatings for protection against wear and high temperature corrosion[A].Orlanduo,2003:535-542. |
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