二硫化钨固体润滑应用进展
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摘要
本文剖析了二硫化钨润滑剂特点及二硫化钨固体润滑薄膜的润滑机理;分析了纳米二硫化钨颗粒的团聚原因及二硫化钨分散方法,讨论了分散方法对分散效果的影响;重点概述了二硫化钨在润滑油中及其润滑薄膜应用进展,展望二硫化钨未来固体润滑应用前景。
The tribological properties of tungsten disulfide and the lubricating mechanism of the solid lubricating thin film were analyzed in this article.The aggregation reason of WS_2 nano-particles and the dispersion method were analyzed,the effect of dispersion method were discussed.The application of WS_2 in lubricating oil and in the field of solid lubricants and even the prospect application were summarized in detail.
The tribological properties of tungsten disulfide and the lubricating mechanism of the solid lubricating thin film were analyzed in this article.The aggregation reason of WS_2 nano-particles and the dispersion method were analyzed,the effect of dispersion method were discussed.The application of WS_2 in lubricating oil and in the field of solid lubricants and even the prospect application were summarized in detail.
引文
[1]王晓光,杜广煜,巴德纯,等.二硫化钨固体润滑薄膜润滑机理及研究现状[C]//中国真空学会.第八届全国真空冶金与表面工程学术会议论文集.沈阳:[出版者不详],2007:240-245.
[2]Yuko T,Hirobum S,Masahisa M.Study on metal-base self-lubricating composites containing tungsten disulfide[J]. Lubrication Engineering,1973,29(11):498.
[3]Si P Z,Choi C,Lee J,et al.Synthesis,structure and tribological performance of tungsten disulphide nanocomposites[J].Materials Science & Engineering A (Structural Materials: Properties,Microstructure and Processing),2007,443(1):167.
[4]陈明月.二硫化钨及紫外光固化固体润滑涂层性能研究[D].马鞍山:安徽工业大学,2014.
[5]王毓民,王恒.润滑材料与润滑技术[M].北京:化学工业出版社,2005.
[6]Wong K C,Lu X,Cotter J,et al.Surface and friction characterization of MoS2 and WS2 third body thin films under simulated wheel/rail rolling-sliding contact[J].Wear,2008,264:526.
[7]Seeger T R,Mientus J,Rohrich R,et al.Electrical and optical properties of highly (001)textured WSX films reactive deposited by magnetron sputtering[J].Surface & Coatings Technology,2005,200:218.
[8]李长生,于云,刘艳清.WS2纳米颗粒的合成及摩擦学性能研究[J].无机化学学报,2008,24(2):275.
[9]武继芬.MoS2、WS2:纳米材料的制备、表征及应用[D].青岛:青岛科技大学,2007.
[10]宋晓岚,王海波,吴雪兰,等.纳米颗粒分散技术的研究与发展[J].化工进展,2005,24(1):47.
[11]Alawi O A,Sidik N A C,Beriache M.Applications of nanorefrigerant and nanolubricants in refrigeration,air-conditioning and heat pump systems: A review[J].International Communications in Heat and Mass Transfer,2015,68:91.
[12]Nian J Y,Si Y F,Guo Z G.Advances in atomic-scale tribological mechanisms of solid interfaces[J].Tribology International,2016,94:1.
[13]石琛,毛大恒,毛向辉.纳米二硫化钨颗粒的分散稳定性[J].中南大学学报(自然科学版),2010,41(2):478.
[14]田雪梅,乔红斌,邹李华,等.一种微胶囊化二硫化钨干膜润滑剂:CN,201310032928.3[P].2013-04-24.
[15]石琛,毛大恒.纳米二硫化钨在绿色润滑油中的应用与机理研究[J].应用基础与工程科学学报,2009,17(3):429.
[16]王毓民,王恒.实用汽车润滑技术手册[M].北京:化学工业出版社,2005.
[17]俸梦德.纳米材料WS2对润滑油摩擦磨损性能的影响[J].黄石高等专科学校学报,2004,20(2):45.
[18]Reddy Paturi U M,Maddu Y R,Maruri R R,et al.Measurement and analysis of surface roughness in WS2 solid lubricant assisted minimum quantity lubrication (MQL) turning of inconel 718[J].Procedia CIRP,2016,40:138.
[19]石琛,毛大恒,俸颢.二硫化钨发动机油的摩擦学性能研究[J].润滑与密封,2007,32(3):83.
[20]何嘉,古丛.用于维修的自润滑薄膜的研究现状[C]//中国机械工程学会,中国工程机械学会,中国中铁股份有限公司.第十一次全国机械维修学术会议论文集.武汉:[出版者不详],2007:140-143.
[21]幸泽宽.美俄新型固体润滑涂层介绍[C]//中国核学会.2006全国核材料学术交流会论文集.成都:[出版者不详],2006:191-196.
[22]Gustavsson F,Jacobson S,Cavaleiro A,et al.Ultra-low friction W-S-N solid lubricant coating[J]. Surface and Coatings Technology,2013,232:541.
[23]Pimentel J V,Polcar T,Evaristo M,et al.Examination of the tribolayer formation of a self-lubricant W-S-C sputtered coating[J].Tribology International,2012,47:188.
[24]赖德明,涂江平,张升才,等.溅射沉积WS2/Ag纳米复合薄膜在不同环境中的摩擦磨损性能研究[J].摩擦学学报,2006,26(6):515.
[25]Kachhap R K,Satapathy B K.Synergistic effect of tungsten disulfide and cenosphere combination on braking performance of composite friction materials[J].Materials and Design,2014,56:368.
[26]Mohammed N,Ana M Diez-Pascual.Opportunities and challenges in the use of inorganic fullerene-like nanoparticles to produce advanced polymer nanocomposites[J].Progress in Polymer Science,2013,38(8):1163.
[27]张文钲.空心富勒烯纳米MoS2和WS2[J].中国钼业,2002,26(4):18.
[28]Rapoport L,Leshchinsky V.Mechanism of friction of fullerenes[J].Industrial Lubrication & Tribology,2002,54(4):171.
[29]Rapoport L,Lvovsky M.Slow release of fullerene-like WS2 nanoparticles as a superior solid lubrication mechanism in composite matrices[J].Advanced Engineering Materials,2001,3(1-2):71.
[2]Yuko T,Hirobum S,Masahisa M.Study on metal-base self-lubricating composites containing tungsten disulfide[J]. Lubrication Engineering,1973,29(11):498.
[3]Si P Z,Choi C,Lee J,et al.Synthesis,structure and tribological performance of tungsten disulphide nanocomposites[J].Materials Science & Engineering A (Structural Materials: Properties,Microstructure and Processing),2007,443(1):167.
[4]陈明月.二硫化钨及紫外光固化固体润滑涂层性能研究[D].马鞍山:安徽工业大学,2014.
[5]王毓民,王恒.润滑材料与润滑技术[M].北京:化学工业出版社,2005.
[6]Wong K C,Lu X,Cotter J,et al.Surface and friction characterization of MoS2 and WS2 third body thin films under simulated wheel/rail rolling-sliding contact[J].Wear,2008,264:526.
[7]Seeger T R,Mientus J,Rohrich R,et al.Electrical and optical properties of highly (001)textured WSX films reactive deposited by magnetron sputtering[J].Surface & Coatings Technology,2005,200:218.
[8]李长生,于云,刘艳清.WS2纳米颗粒的合成及摩擦学性能研究[J].无机化学学报,2008,24(2):275.
[9]武继芬.MoS2、WS2:纳米材料的制备、表征及应用[D].青岛:青岛科技大学,2007.
[10]宋晓岚,王海波,吴雪兰,等.纳米颗粒分散技术的研究与发展[J].化工进展,2005,24(1):47.
[11]Alawi O A,Sidik N A C,Beriache M.Applications of nanorefrigerant and nanolubricants in refrigeration,air-conditioning and heat pump systems: A review[J].International Communications in Heat and Mass Transfer,2015,68:91.
[12]Nian J Y,Si Y F,Guo Z G.Advances in atomic-scale tribological mechanisms of solid interfaces[J].Tribology International,2016,94:1.
[13]石琛,毛大恒,毛向辉.纳米二硫化钨颗粒的分散稳定性[J].中南大学学报(自然科学版),2010,41(2):478.
[14]田雪梅,乔红斌,邹李华,等.一种微胶囊化二硫化钨干膜润滑剂:CN,201310032928.3[P].2013-04-24.
[15]石琛,毛大恒.纳米二硫化钨在绿色润滑油中的应用与机理研究[J].应用基础与工程科学学报,2009,17(3):429.
[16]王毓民,王恒.实用汽车润滑技术手册[M].北京:化学工业出版社,2005.
[17]俸梦德.纳米材料WS2对润滑油摩擦磨损性能的影响[J].黄石高等专科学校学报,2004,20(2):45.
[18]Reddy Paturi U M,Maddu Y R,Maruri R R,et al.Measurement and analysis of surface roughness in WS2 solid lubricant assisted minimum quantity lubrication (MQL) turning of inconel 718[J].Procedia CIRP,2016,40:138.
[19]石琛,毛大恒,俸颢.二硫化钨发动机油的摩擦学性能研究[J].润滑与密封,2007,32(3):83.
[20]何嘉,古丛.用于维修的自润滑薄膜的研究现状[C]//中国机械工程学会,中国工程机械学会,中国中铁股份有限公司.第十一次全国机械维修学术会议论文集.武汉:[出版者不详],2007:140-143.
[21]幸泽宽.美俄新型固体润滑涂层介绍[C]//中国核学会.2006全国核材料学术交流会论文集.成都:[出版者不详],2006:191-196.
[22]Gustavsson F,Jacobson S,Cavaleiro A,et al.Ultra-low friction W-S-N solid lubricant coating[J]. Surface and Coatings Technology,2013,232:541.
[23]Pimentel J V,Polcar T,Evaristo M,et al.Examination of the tribolayer formation of a self-lubricant W-S-C sputtered coating[J].Tribology International,2012,47:188.
[24]赖德明,涂江平,张升才,等.溅射沉积WS2/Ag纳米复合薄膜在不同环境中的摩擦磨损性能研究[J].摩擦学学报,2006,26(6):515.
[25]Kachhap R K,Satapathy B K.Synergistic effect of tungsten disulfide and cenosphere combination on braking performance of composite friction materials[J].Materials and Design,2014,56:368.
[26]Mohammed N,Ana M Diez-Pascual.Opportunities and challenges in the use of inorganic fullerene-like nanoparticles to produce advanced polymer nanocomposites[J].Progress in Polymer Science,2013,38(8):1163.
[27]张文钲.空心富勒烯纳米MoS2和WS2[J].中国钼业,2002,26(4):18.
[28]Rapoport L,Leshchinsky V.Mechanism of friction of fullerenes[J].Industrial Lubrication & Tribology,2002,54(4):171.
[29]Rapoport L,Lvovsky M.Slow release of fullerene-like WS2 nanoparticles as a superior solid lubrication mechanism in composite matrices[J].Advanced Engineering Materials,2001,3(1-2):71.