采用大气等离子喷涂方法,制备出WC-Co基体中含有Cu和MoS2固体润滑剂的涂层.分别在200℃、400℃和600℃进行WC-Co-Cu-MoS2涂层和WC-Co涂层的高温摩擦实验,并用扫描电镜对涂层磨损表面进行微观形貌观察.结果表明,当温度为200℃时,在WC-Co-Cu-MoS2涂层磨损表面形成含有润滑剂的致密摩擦产物层,导致涂层的摩擦系数和磨损率均较低.但在400℃和600℃时,润滑剂MoS2由于氧化和挥发而损失,摩擦产物层中形成孔穴缺陷,并变得疏松,失去对涂层的保护作用,涂层摩擦过程趋于恶劣.WC-Co-Cu-MoS2涂层只有在相对较低的温度下(约200℃)才表现出比WC-Co涂层优异的摩擦磨损性能.
参考文献
| [1] | Rhys-Jones T N .Thermally sprayed coating systems for surface protection and clearance control applications in aero engines[J].Surface and Coatings Technology,1990,43-44(01):402. |
| [2] | Shipway P t;Howell L .Microscale abrasion-corrosion behaviour of WC-Co hardmetals and HVOF sprayed coatings[J].Wear,2005,258(1-4):303. |
| [3] | Zhang Z F;Zhang L C;Mai Y W .Modelling friction and wear of scratching ceramic particle-reinforced metal composites[J].Wear,1994,176(02):231. |
| [4] | Kim Hyung Jun;Lee Chang-Hee;Hwang Soon-Young .Superhard nano WC-12%Co coating by cold spray deposition[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2005,391(1-2):243. |
| [5] | Zhu Yingchun;Ding Chuanxian;Ken Yukimura et al.Deposition and characterization of nanostructured WC-Co coating[J].Ceramics International,2001,27(06):669. |
| [6] | Usmani S et al.Effect of carbide grain size on the sliding and abrasive wear behavior of thermally sprayed WC-Cocoatings[J].Tribology Transactions,1997,40(03):470. |
| [7] | Stewart D.A.;McCartney D.G.;Shipway P.H. .Abrasive wear behaviour of conventional and nanocomposite HVOF-sprayed WC-Co coatings[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,1999(2):789-798. |
| [8] | Du H;Sun C;Hua W G et al.Fabrication and evaluation of D-gun sprayed WC-Co coating with self-lubricating property[J].Tribology Letters,2006,23(03):266. |
| [9] | Alexeyev N;Jahanmir S .Mechanics of friction in self-lubricating composite materials Ⅰ:Mechanics of second-phase deformation and motion[J].Wear,1993,166(01):41. |
| [10] | P. Schwaller;J. Patscheider;L. Kollo;J. Michler .Microtribological studies of different nanocomposite TiC/a-C:H coatings using a modified nanoindentation setup[J].Tribology letters,2004(4):757-763. |
| [11] | Fauchais P;Montavon G;Vardelle M;Cedelle J .Developments in direct current plasma spraying[J].Surface & Coatings Technology,2006(5):1908-1921. |
| [12] | Basak A K;Achanta S;De Bonte M et al.Effect of Al and Cr addition on tribological behaviour of HVOF and APS nanostructured WC-Co coatings[J].Trans Instit Metal Finish,2007,85(06):310. |
| [13] | 熊党生.氟化镧对镍基自润滑合金力学性能及高温摩擦学特性的影响[J].中国有色金属学报,2002(01):106-109. |
| [14] | 李诗卓;姜晓霞;尹付成 et al.Ni-Cu-Re高温自润滑合金的研究[J].材料研究学报,1989,3(06):481. |
| [15] | 熊党生,李诗卓,姜晓霞.Fe-Re合金高温摩擦特性研究[J].自然科学进展,1997(01):81. |
| [16] | 刘近朱;欧阳明安;马励 et al.几种含硫镍基高温自润滑合金的研究[J].摩擦学学报,1993,13(03):193. |
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