在分析俄罗斯产曲轴喷涂用药芯电弧喷涂丝的基础上研制出一种经济实用的药芯电弧喷涂丝.该电弧喷涂丝涂层组织均匀,反应充分,涂层与基体结合良好,结合强度大于20MPa,在相同条件下,磨损失重仅为Q235的0.8%,2Cr13涂层的5.3%,且耐磨性能比俄罗斯产药芯电弧喷涂丝的高,而且可以节约成本,大规模应用于实际生产.
参考文献
| [1] | American Welding Society.Thermal spraying-pratice theory and application[M].New York:Academic Press,Inc,1985:30. |
| [2] | Sheffler K D;Gupta D K .Current status and trends in turbine application of thermal barrier coatings[J].Journal of Engineering for Gas Turbines and Power,Transactions of the ASME,1988,114:605. |
| [3] | 高荣发.热喷涂[M].北京:化学工业出版社,1992:32. |
| [4] | Irving B.The HVOF process:The hottest topic in the thermal spray industry[J].Welding Journal,1993(07):25. |
| [5] | Smith R W;Fast R D.The future of thermal spray technology[J].Welding Journal,1994(07):43. |
| [6] | Barbezat G;Nicol A R;Jin Y S .Abrasive wear performaner of Cr3C2-25% NiCr coatings by plasma spray and CDS detonation spray[J].Tribology Transactions,1995,138(04):845. |
| [7] | 徐滨士,李长久.表面工程与热喷涂技术及其发展[J].中国表面工程,1998(01):3. |
| [8] | 斯科特D;上海市机械工程学会摩擦学学组.工业摩擦学[M].北京:机械工业出版社,1982:145. |
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