热喷涂高温自润滑涂层研究现状
|
摘要
鉴于现代高技术装备用高温润滑涂层的服役温度越来越高、条件越来越复杂,且对高可靠性及长寿命等方面的要求日益苛刻,亟需研究新型高温自适应润滑涂层材料在其服役条件下的环境适应性和稳定性。综述了目前国内外对该类涂层的组分设计和相关制备技术,重点分析了利用热喷涂技术制备高温自润滑涂层的研究现状,并从制备工艺和涂层组分调控方面阐述了该类涂层研究取得的成果和存在的问题。提出未来针对热喷涂高温自润滑涂层的制备应利用先进的喷涂设备,选用物相组分相近的喷涂粉末,并结合组分设计调控,以涂层具有良好的涂基力学性能、耐腐蚀性能、抗高温氧化性能为前提,使涂层在高温环境下可借助摩擦物理或摩擦化学过程,来赋予其良好的高温自润滑性能,重点研究涂层的组分构效关系和综合应用性能。运用材料氧化热力学-动力学理论,从涂层"高温力学-高温摩擦学-耐高温稳定性"三方面来考核材料的综合使役性能,并探讨其高温润滑摩擦机理。
As high temperature self-lubricating coatings for modern high-tech equipment use are confronted with increasingly complex conditions, high service temperature, and more rigorous requirements for high reliability and long life, it is in urgent need to study environmental suitability and stability of novel high temperature self-adaptive lubricating coatings under service conditions. Component design and relevant preparation technology of the coatings at home and abroad were reviewed. Research status of high temperature self-lubricating coatings prepared by thermal spraying technology was analyzed emphati-cally. Achievements and shortcoming of the technology were elaborated from the aspect of preparation technology and component regulation. It was propose that advanced spraying equipment and spraying powders consisting of similar phase component should be used to prepare thermal sprayed high temperature self-lubricating coatings by referring to component design regulation. Besides, the regulation should guarantee superior mechanical properties, corrosion resistance and high temperature oxidation resistance so that the coating could exhibit excellent high temperature self-lubricant property by virtue of tribological physical or chemical process at high temperature. Coating structure-activity relationship and comprehensive application property were studied emphatically. Furthermore, material oxidation thermodynamics-kinetic theory was employed to evaluate comprehensive use performance of materials and discuss high-temperature lubricating friction mechanism from the aspects of "high-temperature mechanics-high-temperature tribology-high temperature resistance stability".
As high temperature self-lubricating coatings for modern high-tech equipment use are confronted with increasingly complex conditions, high service temperature, and more rigorous requirements for high reliability and long life, it is in urgent need to study environmental suitability and stability of novel high temperature self-adaptive lubricating coatings under service conditions. Component design and relevant preparation technology of the coatings at home and abroad were reviewed. Research status of high temperature self-lubricating coatings prepared by thermal spraying technology was analyzed emphati-cally. Achievements and shortcoming of the technology were elaborated from the aspect of preparation technology and component regulation. It was propose that advanced spraying equipment and spraying powders consisting of similar phase component should be used to prepare thermal sprayed high temperature self-lubricating coatings by referring to component design regulation. Besides, the regulation should guarantee superior mechanical properties, corrosion resistance and high temperature oxidation resistance so that the coating could exhibit excellent high temperature self-lubricant property by virtue of tribological physical or chemical process at high temperature. Coating structure-activity relationship and comprehensive application property were studied emphatically. Furthermore, material oxidation thermodynamics-kinetic theory was employed to evaluate comprehensive use performance of materials and discuss high-temperature lubricating friction mechanism from the aspects of "high-temperature mechanics-high-temperature tribology-high temperature resistance stability".
引文
[1]DACRUZ J F,BOTELHO T D,LEMAIRE C I,et al.Role of WS2,WS2+Cr C and Bonded Coatings on Damage and Friction of Inconel 718 Flat Rough Surfaces at High Temperature[J].Tribology International,2016,100:430-440.
[2]武德安.某型航空发动机涡轮叶片叶冠接触面钎焊用耐磨块的研究及其应用[J].航空维修与工程,2015(10):106-110.WU D A.Research and Application on Wearable Pieces Used for Brazing of Certain Type Aero-engine Turbine Blade Crown Interface[J].Aviation Maintenance&Engineering,2015(10):106-110.
[3]ZHANG X,CHENG J,NIU M,et al.Microstructure and High Temperature Tribological Behavior of Fe3AlBa0.25Sr0.75SO4 Self-lubricating Composites[J].Tribology International,2016,101:81-87.
[4]PEREIRA J,ZAMBRANO J,LICAUSE M,et al.Tribology and High Temperature Friction Wear Behavior of MCr Al Y Laser Cladding Coatings on Stainless Steel[J].Wear,2015,330-331:280-287.
[5]LIU X,AN Y L,ZHAO X Q,et al.Hot Corrosion Behavior of Ni Co Cr Al YTa Coating Deposited on Inconel Alloy Substrate by High Velocity Oxy-fuel Spraying upon Exposure to Molten V2O5-containing Salts[J].Corrosion Science,2016,112:696-709.
[6]HOU G L,AN Y L,ZHAO X Q,et al.Effect of Alumina Dispersion on Oxidation Behavior as well as Friction and Wear Behavior of HVOF-sprayed CoCr Al YTa CSi Coating at Elevated Temperature up to1000℃[J].Acta Materialia,2015,95:164-175.
[7]LIU X,ZHAO X Q,AN Y L,et al.Effects of Loads on Corrosion-wear Synergism of Ni Co Cr Al YTa Coating in Artificial Seawater[J].Tribology International,2018,118:421-431.
[8]唐中杰,郭铁明,付迎,等.镍基高温合金的研究现状与发展前景[J].航空材料,2014(1):36-40.TANG Z J,GUO T M,FU Y,et al.Research Present Situation and the Development Prospect of Nickelbased Superalloy[J].Aeronautical Materials,2014(1):36-40.
[9]WOYDT M,HABIG K H.High Temperature Tribology of Ceramics[J].Tribology International,1989,22(2):75-88.
[10]LUO T,WEI X W,ZHAO H Y,et al.Tribology Properties of Al2O3/Ti O2 Nanocomposites as Lubricant Additives[J].Ceramics International,2014,40(7):10103-10109.
[11]YANG K,RONG J,FENG J W,et al.Excellent Wear Resistance of Plasma-sprayed Amorphous Al2O3-Y3Al5O12 Ceramic Coating[J].Surface and Coatings Technology,2017,326:96-102.
[12]SHABANA,SARCAR M M M,SUMAN K N S,et al.Tribological and Corrosion Behavior of HVOF Sprayed WC-Co,Ni Cr BSi and Cr3C2-Ni Cr Coatings and Analysis Using Design of Experiments[J].Materials Today:Proceedings,2015,2(4-5):2654-2665.
[13]MANISH R,ANDREAS P,FRIEDRICH F.Sliding Wear Behavior of Nanocrystalline Cr3C2-25(Ni20Cr)Coatings at Elevated Temperature[J].Tribology Series,2003,41:141-149.
[14]JAFARI J,HAN J C,SEOL J B,et al.Tribological Properties of HVOF-sprayed WC-Co Coatings Deposited from Ni-plated Powders at Elevated Temperature[J].Surface and Coatings Technology,2017,327(25):48-58.
[15]BHUSHAN B.Principles and Applications of Tribology[M].London:John Wiley&Sons,2013.
[16]SLINEY H E.Carbide/Fluoride/Silver Self-lubricating Composite:United Stated,4728448[P].1988-05-23.
[17]KONG L Q,ZHU S Y,BI Q L,et al.Friction and Wear Behavior of Self-lubricating Zr O2(Y2O3)-Ca F2-Mographite Composite from 20℃to 1000℃[J].Ceramics International,2014,40:10787-10792.
[18]KONG L Q,ZHU S Y,BI Q L,et al.Tribological Performance of Ti Al Matrix Self-lubricating Composites Containing Ag Ti3Si C2 and Ba F2/Ca F2 Tested from Room Temperature to 600℃[J].Materials and Design,2014,53:620-633.
[19]SHTANSKY D V,BONDAREV A V,KIRYUKHANTSE K P V,et al.Structure and Tribological Properties of Mo CN-Ag Coatings in the Temperature Range of25~700℃[J].Applied Surface Science,2013,273:408-414.
[20]LIU E Y,GAO Y M,WANG W Z,et al.Effect of Ag2Mo2O7 Incorporation on the Tribological Characteristics of Adaptive Ni-based Composite at Elevated Temperatures[J].Tribology Transactions,2013,56(3):469-479.
[21]LI J F,HUANG J Q,ZHANG Y F,et al.Friction and Wear Behavior of Plasma-sprayed Cr3C2/Ni Cr Against Ti O2 Coating under Water-and Ethanol-lubricated Sliding[J].Wear,1998,214(2):202-206.
[22]VASHISHTHA N,SAPATE S G,BAGDE P,et al.Effect of Heat Treatment on Friction and Abrasive Wear Behavior of WC-12Co and Cr3C2-25Ni Cr Coatings[J].Tribology International,2018,118:381-399.
[23]GAO P H,LI J P,YANG Z,et al.Preparation of Al/Si C Composite Coatings on Surface of Aluminum Alloy by Atmospheric Plasma Spraying[J].Rare Metal Materials and Engineering,2015,44(10):2396-2400.
[24]RONG J,YANG K,ZHUANG Y,et al.Comparative Tribological Study of Plasma Sprayed Alumina and Alumina-yttria under Severe Conditions[J].Surface and Coatings Technology,2017,316(25):1-9.
[25]STAIA M H,PERE D Y,SANCHEZ C,et al.Hardness Properties and High-temperature Wear Behavior of Nitrided AISI D2 Tool Steel,Prior and after PAPVD Coating[J].Wear,2009,267(9-10):1452-1461.
[26]KALSS W,REITER A,DERFLINGER V,et al.Modern Coatings in High Performance Cutting Applications[J].International Journal of Refractory Metals and Hard Materials,2006,24(5):399-404.
[27]FAGA M G,GAUTIER G,CALZAVARINA R,et al.Al Si Ti N Nanocomposite Coatings Developed via Arc Cathodic PVD:Evaluation of Wear Resistance via Tribological Analysis and High Speed Machining Operations[J].Wear,2007,263(7-12):1306-1314.
[28]DELLACORTE C,PEPPER S V,HONECY F S.Tribological Properties of Ag/Ti Films on Al2O3 Ceramic Substrates[J].Surface and Coatings Technology,1992,52(1):31-37.
[29]BENOY P A,DELLACORTE C.Tribological Characteristics of Sputtered Au/Cr Films on Alumina Substrates at Elevated Temperatures[J].Surface and Coatings Technology,1993,62:454-459.
[30]STONE D,LIU J,SINGH D P,et al.Layered Atomic Structures of Double Dxides for Low Shear Strength at High Temperatures[J].Scripta Materialia,2010,62:735-738.
[31]闫毓禾,钟敏霖.高功率激光加工及其应用[M].天津:天津科学技术出版社,1994.YAN Y H,ZHONG M L.High Power Laser Processing and Its Application[M].Tianjin:Tianjin Science and Technology Press,1994.
[32]郭伟,徐庆鸿,田锡唐.激光熔覆的研究发展状况[J].宇航材料工艺,1998(2):33-35.GUO W,XU Q H,TIAN X T.The Development of Laser Cladding[J].Aerospace Materials&Technology,1998(2):33-35.
[33]GUO C,ZHOU J S,CHEN J M,et al.Improvement of the Oxidation and Wear Resistance of Pure Ti by Laser Cladding at Elevated Temperature[J].Surface and Coatings Technology,2010,205:2142-2151.
[34]GUO C,ZHOU J S,CHEN J M,et al.High Temperature Wear Resistance of Laser Cladding Ni Cr BSi and Ni Cr BSi/WC-Ni Composite Coatings[J].Wear,2011,270:492-498.
[35]ZHANG S T,ZHOU J S,GUO B G,et al.Friction and Wear Behavior of Laser Cladding Ni/h BN Self-lubricating Composite Coating[J].Material Science Engineering A,2008,491:47-54.
[36]俞友军.激光熔覆宽温域高温自润滑耐磨覆层的制备及其摩擦学性能研究[D].北京:中国科学院研究生院,2011.YU Y J.Researches on Preparation,Microstructures and Tribological Properties of Laser Cladding Selflubrication Wear-resistant Coatings in a Wide Temperature Range[D].Beijing:Graduate School of Chinese Academy of Science,2011.
[37]刘如铁,李溪滨,程时和.金属基固体自润滑材料的研究概况[J].粉末冶金工业,2001,11(3):51-56.LIU R T,LI X B,CHENG S H.General Situation of Some Metal-matrix Solid Self-lubricating Material[J].Powder Metallurgy Industry,2001,11(3):51-56.
[38]黄培云.粉末冶金原理[M].北京:冶金工业出版社,2004.HUANG P Y.Principle of Powder Metallurgy[M].Beijing:Metallurgical Industry Press,2004.
[39]STANFORD M K,WARD L D,DELLACOTE C.Effect of Prolonged Exposure to High Temperature Air on Physical Characteristics of a Powder Metallurgy Composite Solid Lubricant[J].Composites Science and Technology,2010,70(6):1000-1005.
[40]李大川,赵华玉,钟兴华,等.大气等离子体喷涂的单片层研究进展[J].无机材料学报,2017,32(6):571-580.LI D C,ZHAO H Y,ZHONG X H,et al.Research Progresses of Atmospheric Plasma Sprayed Splat[J].Journal of Inorganic Materials,,2017,32(6):571-580.
[41]胡尧强,陈永雄,商俊超,等.高速燃气热喷涂技术的进展[J].热喷涂技术,2014,6(3):1-5.HU R Q,CHEN Y X,SHANG J C,et al.Research Status of High Velocity Fuel Gas Thermal Spraying[J].Thermal Spray Technology,2014,6(3):1-5.
[42]钟厉,王昭银,张华东.冷喷涂沉积机理及其装备的研究进展[J].表面技术,2015,44(4):15-22.ZHONG L,WANG Z Y,ZHANG H D.Research Progress of Precipitation Mechanism and Apparatus of Cold Spray[J].Surface Technology,2015,44(4):15-22.
[43]李文亚,李长久.冷喷涂特性[J].中国表面工程,2002(1):12-16.LI W Y,LI C J.Characteristics of Cold Spray Process[J].China Surface Engineering,2002(1):12-16.
[44]SLINEY H E,DELLACORTE C,LUKASZEWICZ V.The Tribology of PS212 Coatings and PM212 Composites for the Lubrication of Ti6A14V Components of a Stirling Engine Space Power System[J].Tribology Transactions,1995,38(3):497-506.
[45]SLINEY H E.The Use of Silver in Self-lubricating Coatings for Extreme Temperatures[J].ASLE Transactions,1986,29(3):370-376.
[46]HESHMAT H,HRYNIEWICZ P,WALTON J F,et al.Low-friction Wear-resistant Coatings for High-temperature Foil Bearings[J].Tribology International,2005,38(11-12):1059-1075.
[47]DELLACORTE C,EDMONDS B J.A New High Temperature Solid Lubricant Coating for High Temperature Wear Applications:United States,8753417[P].2009-06-14.
[48]AN Y L,CHEN J,HOU G L,et al.Effect of Silver Content on Tribological Property and Thermal Stability of HVOF-sprayed Nickel-based Solid Lubrication Coating[J].Tribology Letters,2015,58:34-43.
[49]CHEN J,ZHOU H D,ZHAO X Q,et al.Microstructural Characterization and Tribological Behavior of HVOF Sprayed Ni Mo Al Coating from 20℃to800℃[J].Journal of Thermal Spray Technology,2015,24(3):348-356.
[50]CHEN J,ZHAO X Q,ZHOU H D,et al.Microstructure and Tribological Property of HVOF-sprayed Adaptive Ni Mo Al-Cr3C2-Ag Composite Coating from20℃to 800℃[J].Surface&Coatings Technology,2014,258:1183-1190.
[51]CHEN J,AN Y L,YANG J,et al.Tribological Properties of Adaptive Ni Cr Al Y-Ag-Mo Coatings Prepared by Atmospheric Plasma Spraying[J].Surface&Coatings Technology,2013,235:521-528.
[52]RABUNOWICZ E.Lubrication of Metal Surface by Oxide Films[J].ASLE Transactions,1967,10(4):400-407.
[53]BOLELLI G,BERGER L M,BONETTI M,et al.Comparative Study of the Dry Sliding Wear Behaviour of HVOF-sprayed WC-(W,Cr)2C-Ni and WC-Co Cr Hardmetal Coatings[J].Wear,2014,309:96-111.
[54]吴子健.热喷涂技术与应用[M].北京:机械工业出版社,2005.WU Z J.Technology and Application of Thermal Spraying[M].Beijing:Machinery Industry Press,2005.
[55]BHUSHAN B.Modern Tribology Handbook(Volume One)[M].Florida:CRC Press LLC,2001.
[56]AOUADI S M,LUSTER B,KOHLI P,et al.Progress in the Development of Adaptive Nitride-based Coatings for High Temperature Tribological Applications[J].Surface and Coatings Technology,2009,204:962-968.
[2]武德安.某型航空发动机涡轮叶片叶冠接触面钎焊用耐磨块的研究及其应用[J].航空维修与工程,2015(10):106-110.WU D A.Research and Application on Wearable Pieces Used for Brazing of Certain Type Aero-engine Turbine Blade Crown Interface[J].Aviation Maintenance&Engineering,2015(10):106-110.
[3]ZHANG X,CHENG J,NIU M,et al.Microstructure and High Temperature Tribological Behavior of Fe3AlBa0.25Sr0.75SO4 Self-lubricating Composites[J].Tribology International,2016,101:81-87.
[4]PEREIRA J,ZAMBRANO J,LICAUSE M,et al.Tribology and High Temperature Friction Wear Behavior of MCr Al Y Laser Cladding Coatings on Stainless Steel[J].Wear,2015,330-331:280-287.
[5]LIU X,AN Y L,ZHAO X Q,et al.Hot Corrosion Behavior of Ni Co Cr Al YTa Coating Deposited on Inconel Alloy Substrate by High Velocity Oxy-fuel Spraying upon Exposure to Molten V2O5-containing Salts[J].Corrosion Science,2016,112:696-709.
[6]HOU G L,AN Y L,ZHAO X Q,et al.Effect of Alumina Dispersion on Oxidation Behavior as well as Friction and Wear Behavior of HVOF-sprayed CoCr Al YTa CSi Coating at Elevated Temperature up to1000℃[J].Acta Materialia,2015,95:164-175.
[7]LIU X,ZHAO X Q,AN Y L,et al.Effects of Loads on Corrosion-wear Synergism of Ni Co Cr Al YTa Coating in Artificial Seawater[J].Tribology International,2018,118:421-431.
[8]唐中杰,郭铁明,付迎,等.镍基高温合金的研究现状与发展前景[J].航空材料,2014(1):36-40.TANG Z J,GUO T M,FU Y,et al.Research Present Situation and the Development Prospect of Nickelbased Superalloy[J].Aeronautical Materials,2014(1):36-40.
[9]WOYDT M,HABIG K H.High Temperature Tribology of Ceramics[J].Tribology International,1989,22(2):75-88.
[10]LUO T,WEI X W,ZHAO H Y,et al.Tribology Properties of Al2O3/Ti O2 Nanocomposites as Lubricant Additives[J].Ceramics International,2014,40(7):10103-10109.
[11]YANG K,RONG J,FENG J W,et al.Excellent Wear Resistance of Plasma-sprayed Amorphous Al2O3-Y3Al5O12 Ceramic Coating[J].Surface and Coatings Technology,2017,326:96-102.
[12]SHABANA,SARCAR M M M,SUMAN K N S,et al.Tribological and Corrosion Behavior of HVOF Sprayed WC-Co,Ni Cr BSi and Cr3C2-Ni Cr Coatings and Analysis Using Design of Experiments[J].Materials Today:Proceedings,2015,2(4-5):2654-2665.
[13]MANISH R,ANDREAS P,FRIEDRICH F.Sliding Wear Behavior of Nanocrystalline Cr3C2-25(Ni20Cr)Coatings at Elevated Temperature[J].Tribology Series,2003,41:141-149.
[14]JAFARI J,HAN J C,SEOL J B,et al.Tribological Properties of HVOF-sprayed WC-Co Coatings Deposited from Ni-plated Powders at Elevated Temperature[J].Surface and Coatings Technology,2017,327(25):48-58.
[15]BHUSHAN B.Principles and Applications of Tribology[M].London:John Wiley&Sons,2013.
[16]SLINEY H E.Carbide/Fluoride/Silver Self-lubricating Composite:United Stated,4728448[P].1988-05-23.
[17]KONG L Q,ZHU S Y,BI Q L,et al.Friction and Wear Behavior of Self-lubricating Zr O2(Y2O3)-Ca F2-Mographite Composite from 20℃to 1000℃[J].Ceramics International,2014,40:10787-10792.
[18]KONG L Q,ZHU S Y,BI Q L,et al.Tribological Performance of Ti Al Matrix Self-lubricating Composites Containing Ag Ti3Si C2 and Ba F2/Ca F2 Tested from Room Temperature to 600℃[J].Materials and Design,2014,53:620-633.
[19]SHTANSKY D V,BONDAREV A V,KIRYUKHANTSE K P V,et al.Structure and Tribological Properties of Mo CN-Ag Coatings in the Temperature Range of25~700℃[J].Applied Surface Science,2013,273:408-414.
[20]LIU E Y,GAO Y M,WANG W Z,et al.Effect of Ag2Mo2O7 Incorporation on the Tribological Characteristics of Adaptive Ni-based Composite at Elevated Temperatures[J].Tribology Transactions,2013,56(3):469-479.
[21]LI J F,HUANG J Q,ZHANG Y F,et al.Friction and Wear Behavior of Plasma-sprayed Cr3C2/Ni Cr Against Ti O2 Coating under Water-and Ethanol-lubricated Sliding[J].Wear,1998,214(2):202-206.
[22]VASHISHTHA N,SAPATE S G,BAGDE P,et al.Effect of Heat Treatment on Friction and Abrasive Wear Behavior of WC-12Co and Cr3C2-25Ni Cr Coatings[J].Tribology International,2018,118:381-399.
[23]GAO P H,LI J P,YANG Z,et al.Preparation of Al/Si C Composite Coatings on Surface of Aluminum Alloy by Atmospheric Plasma Spraying[J].Rare Metal Materials and Engineering,2015,44(10):2396-2400.
[24]RONG J,YANG K,ZHUANG Y,et al.Comparative Tribological Study of Plasma Sprayed Alumina and Alumina-yttria under Severe Conditions[J].Surface and Coatings Technology,2017,316(25):1-9.
[25]STAIA M H,PERE D Y,SANCHEZ C,et al.Hardness Properties and High-temperature Wear Behavior of Nitrided AISI D2 Tool Steel,Prior and after PAPVD Coating[J].Wear,2009,267(9-10):1452-1461.
[26]KALSS W,REITER A,DERFLINGER V,et al.Modern Coatings in High Performance Cutting Applications[J].International Journal of Refractory Metals and Hard Materials,2006,24(5):399-404.
[27]FAGA M G,GAUTIER G,CALZAVARINA R,et al.Al Si Ti N Nanocomposite Coatings Developed via Arc Cathodic PVD:Evaluation of Wear Resistance via Tribological Analysis and High Speed Machining Operations[J].Wear,2007,263(7-12):1306-1314.
[28]DELLACORTE C,PEPPER S V,HONECY F S.Tribological Properties of Ag/Ti Films on Al2O3 Ceramic Substrates[J].Surface and Coatings Technology,1992,52(1):31-37.
[29]BENOY P A,DELLACORTE C.Tribological Characteristics of Sputtered Au/Cr Films on Alumina Substrates at Elevated Temperatures[J].Surface and Coatings Technology,1993,62:454-459.
[30]STONE D,LIU J,SINGH D P,et al.Layered Atomic Structures of Double Dxides for Low Shear Strength at High Temperatures[J].Scripta Materialia,2010,62:735-738.
[31]闫毓禾,钟敏霖.高功率激光加工及其应用[M].天津:天津科学技术出版社,1994.YAN Y H,ZHONG M L.High Power Laser Processing and Its Application[M].Tianjin:Tianjin Science and Technology Press,1994.
[32]郭伟,徐庆鸿,田锡唐.激光熔覆的研究发展状况[J].宇航材料工艺,1998(2):33-35.GUO W,XU Q H,TIAN X T.The Development of Laser Cladding[J].Aerospace Materials&Technology,1998(2):33-35.
[33]GUO C,ZHOU J S,CHEN J M,et al.Improvement of the Oxidation and Wear Resistance of Pure Ti by Laser Cladding at Elevated Temperature[J].Surface and Coatings Technology,2010,205:2142-2151.
[34]GUO C,ZHOU J S,CHEN J M,et al.High Temperature Wear Resistance of Laser Cladding Ni Cr BSi and Ni Cr BSi/WC-Ni Composite Coatings[J].Wear,2011,270:492-498.
[35]ZHANG S T,ZHOU J S,GUO B G,et al.Friction and Wear Behavior of Laser Cladding Ni/h BN Self-lubricating Composite Coating[J].Material Science Engineering A,2008,491:47-54.
[36]俞友军.激光熔覆宽温域高温自润滑耐磨覆层的制备及其摩擦学性能研究[D].北京:中国科学院研究生院,2011.YU Y J.Researches on Preparation,Microstructures and Tribological Properties of Laser Cladding Selflubrication Wear-resistant Coatings in a Wide Temperature Range[D].Beijing:Graduate School of Chinese Academy of Science,2011.
[37]刘如铁,李溪滨,程时和.金属基固体自润滑材料的研究概况[J].粉末冶金工业,2001,11(3):51-56.LIU R T,LI X B,CHENG S H.General Situation of Some Metal-matrix Solid Self-lubricating Material[J].Powder Metallurgy Industry,2001,11(3):51-56.
[38]黄培云.粉末冶金原理[M].北京:冶金工业出版社,2004.HUANG P Y.Principle of Powder Metallurgy[M].Beijing:Metallurgical Industry Press,2004.
[39]STANFORD M K,WARD L D,DELLACOTE C.Effect of Prolonged Exposure to High Temperature Air on Physical Characteristics of a Powder Metallurgy Composite Solid Lubricant[J].Composites Science and Technology,2010,70(6):1000-1005.
[40]李大川,赵华玉,钟兴华,等.大气等离子体喷涂的单片层研究进展[J].无机材料学报,2017,32(6):571-580.LI D C,ZHAO H Y,ZHONG X H,et al.Research Progresses of Atmospheric Plasma Sprayed Splat[J].Journal of Inorganic Materials,,2017,32(6):571-580.
[41]胡尧强,陈永雄,商俊超,等.高速燃气热喷涂技术的进展[J].热喷涂技术,2014,6(3):1-5.HU R Q,CHEN Y X,SHANG J C,et al.Research Status of High Velocity Fuel Gas Thermal Spraying[J].Thermal Spray Technology,2014,6(3):1-5.
[42]钟厉,王昭银,张华东.冷喷涂沉积机理及其装备的研究进展[J].表面技术,2015,44(4):15-22.ZHONG L,WANG Z Y,ZHANG H D.Research Progress of Precipitation Mechanism and Apparatus of Cold Spray[J].Surface Technology,2015,44(4):15-22.
[43]李文亚,李长久.冷喷涂特性[J].中国表面工程,2002(1):12-16.LI W Y,LI C J.Characteristics of Cold Spray Process[J].China Surface Engineering,2002(1):12-16.
[44]SLINEY H E,DELLACORTE C,LUKASZEWICZ V.The Tribology of PS212 Coatings and PM212 Composites for the Lubrication of Ti6A14V Components of a Stirling Engine Space Power System[J].Tribology Transactions,1995,38(3):497-506.
[45]SLINEY H E.The Use of Silver in Self-lubricating Coatings for Extreme Temperatures[J].ASLE Transactions,1986,29(3):370-376.
[46]HESHMAT H,HRYNIEWICZ P,WALTON J F,et al.Low-friction Wear-resistant Coatings for High-temperature Foil Bearings[J].Tribology International,2005,38(11-12):1059-1075.
[47]DELLACORTE C,EDMONDS B J.A New High Temperature Solid Lubricant Coating for High Temperature Wear Applications:United States,8753417[P].2009-06-14.
[48]AN Y L,CHEN J,HOU G L,et al.Effect of Silver Content on Tribological Property and Thermal Stability of HVOF-sprayed Nickel-based Solid Lubrication Coating[J].Tribology Letters,2015,58:34-43.
[49]CHEN J,ZHOU H D,ZHAO X Q,et al.Microstructural Characterization and Tribological Behavior of HVOF Sprayed Ni Mo Al Coating from 20℃to800℃[J].Journal of Thermal Spray Technology,2015,24(3):348-356.
[50]CHEN J,ZHAO X Q,ZHOU H D,et al.Microstructure and Tribological Property of HVOF-sprayed Adaptive Ni Mo Al-Cr3C2-Ag Composite Coating from20℃to 800℃[J].Surface&Coatings Technology,2014,258:1183-1190.
[51]CHEN J,AN Y L,YANG J,et al.Tribological Properties of Adaptive Ni Cr Al Y-Ag-Mo Coatings Prepared by Atmospheric Plasma Spraying[J].Surface&Coatings Technology,2013,235:521-528.
[52]RABUNOWICZ E.Lubrication of Metal Surface by Oxide Films[J].ASLE Transactions,1967,10(4):400-407.
[53]BOLELLI G,BERGER L M,BONETTI M,et al.Comparative Study of the Dry Sliding Wear Behaviour of HVOF-sprayed WC-(W,Cr)2C-Ni and WC-Co Cr Hardmetal Coatings[J].Wear,2014,309:96-111.
[54]吴子健.热喷涂技术与应用[M].北京:机械工业出版社,2005.WU Z J.Technology and Application of Thermal Spraying[M].Beijing:Machinery Industry Press,2005.
[55]BHUSHAN B.Modern Tribology Handbook(Volume One)[M].Florida:CRC Press LLC,2001.
[56]AOUADI S M,LUSTER B,KOHLI P,et al.Progress in the Development of Adaptive Nitride-based Coatings for High Temperature Tribological Applications[J].Surface and Coatings Technology,2009,204:962-968.