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“固-油-纳”一体化耐磨润滑涂层技术及其应用
引用本文:乔玉林,赵玉强,臧艳,胡春华. “固-油-纳”一体化耐磨润滑涂层技术及其应用[J]. 车辆与动力技术, 2009, 0(3): 61-64
作者姓名:乔玉林  赵玉强  臧艳  胡春华
作者单位:装甲兵工程学院装备冉制造国防科技重点实验室,北京,100072
基金项目:国家自然科学基金资助项目,北京市自然科学基金资助项目 
摘    要:提出并设计了一种将油润滑、纳米润滑和固体润滑一体化的方案.制备了具有微纳孔结构的FeS固体润滑层,利用真空浸油技术,在微纳孔结构中储存润滑油和纳米粒子,制备了纳米粒子、油、FeS固体润滑一体化涂层.在6 600 m in的试验范围内,摩擦系数保持在0.03~0.07之间,显示了该涂层具有低摩擦、耐磨损和长寿命,并给出了其应用范围.

关 键 词:固体润滑  耐磨损  摩擦系数  长寿命

the Integrative Technology of Solid-oil-nano-lubrication and Anti-wear and its Application
QIAO Yu-lin,ZHAO Yu-qiang,ZANG Yan,HU Chun-hua. the Integrative Technology of Solid-oil-nano-lubrication and Anti-wear and its Application[J]. Vehicle & Power Technology, 2009, 0(3): 61-64
Authors:QIAO Yu-lin  ZHAO Yu-qiang  ZANG Yan  HU Chun-hua
Affiliation:QIAO Yu-lin,ZHAO Yu-qiang,ZANG Yan,HU Chun-hua(National Key Laboratory for Remanufacturing,Academy of Force Engineering,Beijing 100072,China)
Abstract:The method that integrated oil lubrication,nano-lubrication with solid lubrication was put forward in this paper.The FeS solid lubricating coating with nanometer micro-porous structure was produced.The lubricant and the nano-particles were stored in the nanometer micro-pores by vacuum oil impregnation technology.The coating integrated the nano-particles,oil-lubrication with solid lubricating.The friction coefficient of the coating is in the range of 0.03~0.07 when tested in 6 600 minutes,and it was testifie...
Keywords:solid lubrication  wear resistance  friction coefficient  durable  
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