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AC-HVAF喷涂Ni60/WC复合涂层微观组织及冲刷磨损性能研究 被引量:7

The Investigate of Microstructures and Erosion Wear Properties of AC-HVAF Sprayed Ni60/WC Composite Coating
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摘要 利用先进的AC-HAVF喷涂技术在0Cr13Ni5Mo不锈钢上制备了Ni60/WC复合涂层.研究了其微观组织及耐磨性能.试验结果表明:涂层主要由Fe-Ni固溶体以及Cr0.19Fe0.7Ni0.11、WC、M6C(Ni2W4C或Fe3W3C)、Cr26C3、CrB2等相组成,未发现W2C以及W相;涂层与基体结合很好,涂层的孔隙率约2.5%;WC、M6C(Ni2W4C或Fe3W3C)、Cr26C3、CrB2硬质相弥散分布于涂层中,部分区域硬质相达到了200~800nm;涂层具有优异的耐冲蚀磨损性能,其耐磨性较基体有很大的提高.涂层应用于水轮机叶片的修复,三个月汛期使用后涂层良好. Ni60/WC composite coating is prepared using advanced AC-HVAF spray on 0Cr13Ni5Mo stainless steel.The microstructures,sliding wear and erosion wear resistance are investigated.The results show that the coating consists of Fe-Ni solid solution and Cr_(0.19)Fe_(0.7)Ni_(0.11),WC,M_6C(Ni_2W_4C or Fe_3W_3C),Cr_(26)C_3,CrB_2 etc. phases,W_2C and W phases are not discovered;the coating is well combined with the 0Cr13Ni5Mo stainless steel,the porosity rate is about 2.5%;WC,M_6C(Ni_2W_4C or Fe_3W_3C),Cr_(26)C_3,CrB_2 phases distribute on the coating dispersedly,some phases can reach 200 nm to 800 nm;the coating has good erosion wear resistance.Applying this coating to repair a vane of gas turbine engine,the coating is good after used for three months of flood season.
作者 马光 樊自拴 孙冬柏 王国刚 刘胜林 孟惠民 俞宏英
机构地区 北京科技大学腐蚀与防护中心
出处 《有色金属(冶炼部分)》 CAS 北大核心 2006年第z1期19-22,共4页 Nonferrous Metals(Extractive Metallurgy)
基金 北京市重大科技项目子项目资助(H020420050021)
关键词 AC-HVAF Ni60/WC复合涂层 微观结构 硬度 耐磨性 AC-HVAF Ni60/WC composite coating Microstructure Hardness Erosion wear resistance
分类号 TG174 [金属学及工艺—金属表面处理]
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参考文献8

  • 1樊自拴,孙冬柏,俞宏英,李辉勤,孟惠民,张济山,乔力杰.超音速火焰喷涂技术研究进展[J].材料保护,2004,37(9):33-35. 被引量:34
  • 2[2]Jin H W,Kim M C,Park C G.Friction-induced solid state amorphization from non-equilibrium solid solution phase in Fe-Cr-B-Ni-Mo spray coatings[A]//.Electron Microscopy:Its Role in Materials Science[C].Mike Meshii Symposium.Proceedings of Symposia.2003:279-286.
  • 3[3]Sudaprasert T,Shipway P H,McCartney D G.Sliding wear behaviour of HVOF sprayed WC-Co coatings deposited with both gas-fuelled and liquid-fuelled systems[J].Wear,2003,255:943-949.
  • 4[4]Li H,Khor K A,Yu LG,et al.Microstructure modifications and phase transformation in plasma-sprayed WC-Co coatings following post-spray spark plasma sintering[J].Surface & Coatings Technology,2005,194:96-102.
  • 5[5]Stoica V,Ahmed R,Itsukaichi T,et al.Sliding wear evaluation of hot isostatically pressed (HIPed) thermal spray cermet coatings[J].Wear,2004,257:1103-1124.
  • 6[6]Qiao Y F,Fischer T E,Dent A.The effects of fuel chemistry and feedstock powder structure on the mechanical and tribological properties of HVOF thermal-sprayed WC-Co coatings with very fine structures[J].Surface and Coatings Technology,2003,172:24-41.
  • 7潘继岗,樊自拴,孙冬柏,俞宏英,李辉勤,王旭东,孟惠民.等离子喷涂钼基非晶纳米晶复合涂层的组织和电化学特性[J].北京科技大学学报,2005,27(4):453-457. 被引量:10
  • 8鲍君峰,于月光,刘海飞.HVOF喷涂WC/Co涂层冲蚀磨损机理研究[J].矿冶,2006,15(1):24-28. 被引量:15

二级参考文献30

  • 1苏启.超音速火焰喷涂技术的近期发展及应用前景[J].钢铁研究学报,1994,6(1):99-102. 被引量:6
  • 2韩忠,赵晖.热喷涂发展趋势──新型高能高速喷涂方法[J].材料工程,1996(12):8-10. 被引量:17
  • 3Berndt C, Larernia E J. Thermal spray processing of nanoscal materialsⅠ-extended abstracts[J]. J Thermal Spray Technology , 1998 , 7(3):411~440.
  • 4Berndt C. Thermal spray processing of nanoscal materialsⅡ-extended abstracts[J] . J Thermal Spray Technology , 2001 , 7(3):147~181.
  • 5Dorfman M R. Thermal spray basics[J]. Advanced Materials & Processes ,2002, 160 ( 7 ): 47~50.
  • 6Kreye H. A comparison of HVOF systems -behavior of materials and coating properties[A]. Proceedings of the 4th HVOF Colloquium[C], Erdin: [s.n.], 1997(11):13~21.
  • 7Legoux J G, Arsenault B, Moreau C, et al. Evaluation of four high velocity thermal spray guns using WC-10Co-4Cr cermets[A]. Proceedings of the International Thermal Spray Conference[C]. Montreal: [s.n.], 2000. 479~486.
  • 8Hanson T C, Hackett C M, Settles G S. Independent control of HVOF particle velocity and temperature[J]. J of Thermal Spray Technology, 2002, 11 (1) : 75~85.
  • 9Gilmore D L, Dykhuizen R C, Neiser R A, et al. Particle velocity and deposition efficiency in the cold spray process[J]. J of Thermal Spray Technology, 1999, 4 (8):576~582.
  • 10Stoltenhoff T, Voyer J, Kreye H. Cold spraying-state of the art and applicability[A]. Proceeding of the International Thermal Spray Conference[C]. Essen:[s.n.], 2002. 366~374.

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有色金属(冶炼部分)
2006年 第z1期

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