石墨烯及衍生物在耐磨涂料中的应用
|
摘要
摩擦导致的磨损基本上是不可逆的损害,影响材料的使用寿命,通过耐磨涂层进行保护是提高基材耐磨性廉价和简洁的途径。本文综述了石墨烯及衍生物在耐磨性涂料中的应用。
The damage caused by friction can be hardly recovered, which might influences the service life of the materials. It is a cost-effective and convenient method to improve the abrasive resistance by introducing anti-wear coating on the surface of the substrate. In this article, the application of both graphene and its derivatives in the abrasive resistance coatings is described.
The damage caused by friction can be hardly recovered, which might influences the service life of the materials. It is a cost-effective and convenient method to improve the abrasive resistance by introducing anti-wear coating on the surface of the substrate. In this article, the application of both graphene and its derivatives in the abrasive resistance coatings is described.
引文
[1]QIU S H,LIU G,LI W.et al.Noncovalent Exfoliation of Graphene and Its Multifunctional Composite Coating with Enhanced Anticorrosion and Tribological Performance[J].Journal of Alloys and Compounds 2018,747,60-70.
[2]HELLIO C,YEBRA D.Advances in Marine Antifouling Coatings and Technologies[M].Woodhead Publishing,2009,422-442.
[3]ZHOU J P,TAN Z Y,Liu Z L.et al.Preparation of Transparent Fluorocarbon/TiO2-SiO2Composite Coating with Improved Self-Cleaning Performance and Anti-Aging Property[J].Applied Surface Science,2016,396,161-168.
[4]MA H Y,WEI G S,LIU Y Q.et al.Effect of Elastomeric Nanoparticles on Properties of Phenolic Resin[J].Polymer,2005,46(23),10568-10573.
[5]ZHANG W W,LI G R,Zhang Q.et al.Self-Enhancing Thermal Insulation Performance of Bimodal-Structured Thermal Barrier Coating[J].Journal of Thermal Spray Technology,2018,27(7),1064-1075.
[6]YUAN R,WU S,YU P.et al.Superamphiphobic and Electroactive Nanocomposite toward Self-Cleaning,Antiwear,and Anticorrosion Coatings[J].ACS Applied Materials&Interfaces,2016,8(19),12481-12493.
[7]JIA Y L,WAN H Q,CHEN L.et al.Effects of nanoLaF3 on the friction and wear behaviors of PTFE-based bonded solid lubricating coatings under different lubrication conditions[J].Applied Surface Science,2016,382,73-79.
[8]NEMATI N,BOZORG M,PENKOV O V.et al.Functional Multi-Nanolayer Coatings of Amorphous Carbon/Tungsten Carbide with Exceptional Mechanical Durability and Corrosion Resistance[J].ACS Applied Materials&Interfaces,2017,9(35),30149-30160.
[9]苏海燕,闫军,崔海萍.改性耐磨涂料研究进展.现代涂料与涂装[J],2007,10(7),38-41.
[10]HUANG W,CHEN C J,JEAN M D.Development and Analysis of Robust Anti-Wear Design of a-C:Zr Films by Taguchi Methods[J].Advanced Materials Research,2011,189-193,3647-3652.
[11]WAN H,JIA Y,YE Y.et al.Tribological Behavior of Polyimide/Epoxy Resin-Polytetrafluoroethylene Bonded Solid Lubricant Coatings Filled with in Situ-synthesized Silver Nanoparticles[J].Progress in Organic Coatings,2017,106,111-118.
[12]KAWAMURA M,FUJITA K.Antiwear Property of Lubricant Additives for High Silicon Aluminium Alloy under Boundary Lubricating Conditions[J].Wear 1983,89(1),99-105.
[13]WANG M.Q,YAN J,CUI H P.et al.Preparation and Properties of Silicone Modified Epoxy Resin,Nano-TiO2and Nano-TiO2/Micron-Al2O3 Polymer Alloys Putty[J].Advanced Materials Research,2011,239-242,3009-3013.
[14]JOLY-POTTUZ L,VACHER B,OHMAE N.et al.Antiwear and Friction Reducing Mechanisms of Carbon Nanoonions as Lubricant Additives[J].Tribology Letters,2008,30(1),69-80.
[15]XU G,ZHOU Z,LIU J.et al.An Investigation of Fretting Behavior of Ion-Plated Tin,Magnetron-Sputtered MoS2 and Their Composite Coatings[J].Wear 1999,225(4),46-52.
[16]ALDANA P U,DASSENOY F,VACHER B.et al.WS2Nanoparticles Anti-Wear and Friction Reducing Properties on Rough Surfaces in the Presence of ZDDP Additive[J].Tribology International 2016,102,213-221.
[17]BARTZ W J.Solid Lubricant Additives-Effect of Concentration and Other Additives on Anti-Wear Performance[J].Wear,1971,17(5),421-432.
[18]RAMACHANDRAN S,TAO L,LEE T H.et al.Deposition and Patterning of Diamondlike Carbon as Antiwear Nanoimprint Templates[J].Journal of Vacuum Science&Technology,2006,24(6),2993-2997.
[19]CHEN S,SHEN B,CHEN Y.et al.Synergistic Frictionreducing and Anti-wear Behaviors of Graphene with Micro-And Nano-crystalline Diamond Films[J].Diamond&Related Materials,2017,73,25-32.
[20]LIANG H,BU Y,ZHANG J.et al.Graphene Oxide Film as Solid Lubricant[J].ACS Applied Materials&Interfaces,2013,5(13),6369-6375.
[21]LEE C,LI Q,KALB W.et al.Frictional Characteristics of Atomically Thin Sheets[J].Science,2010,328(5974),76-80.
[22]KIM K.S.,LEE H.J.,LEE C.et al.Chemical Vapor Deposition-Grown Graphene:The Thinnest Solid Lubricant[J].ACS Nano,2011,5(6),5107-5114.
[23]BERMAN D,ERDEMIR A,SUMANT A V.Graphene:ANew Emerging Lubricant[J].Materials Today,2014,17(1)31-42.
[24]QIN S,CHEN C,CUI M.et al.Facile Preparation of Polyimide/Graphene Nanocomposites via an in Situ Polymerization Approach[J].RSC Advances,2017,7(5),3003-3011.
[25]HUANG T,LU R,SU C.et al.Chemically Modified Graphene/Polyimide Composite Films Based on Utilization of Covalent Bonding and Oriented Distribution[J].ACSApplied Materials&Interfaces,2012,4(5),2699-2708.
[26]CHENG L,MENG X,XIAOWEN Z.et al.In Situ Synthesis of Monomer Casting Nylon-6/Graphene-Polysiloxane Nanocomposites:Intercalation Structure,Synergistic Reinforcing,and Friction-Reducing Effect[J].ACS Applied Materials&Interfaces,2017,9(38),33176-33190.
[27]LIU D,ZHAO W,LIU S.et al.Comparative Tribological and Corrosion Resistance Properties of Epoxy Composite Coatings Reinforced with Functionalized Fullerene C60 and Graphene[J].Surface and Coatings Technology,2016,286,354-364.
[28]YE X,LIU X,YANG Z.et al.Tribological Properties of Fluorinated Graphene Reinforced Polyimide Composite Coatings under Different Lubricated Conditions[J].Composites Part A:Applied Science and Manufacturing2016,81,282-288.
[29]CHU J H,TONG L.B,ZHANG J B.et al.Bio-inspired Graphene-based Coatings on Mg Alloy Surfaces and Their Integrations of Anti-corrosive/Wearable Performances[J]Carbon 2019,141,154-168.
[30]KAUPP G Mechanochemistry:the Varied Applications of Mechanical Bond-breaking[J].CrystEngComm.2009,11(3),388-403.
[31]KIM H,MACOSKO C W.Processing-property Relationships of Polycarbonate/Graphene Composites[J]Polymer 2009,50(15),3797-3809.
[32]WU F,ZHAO W.CHEN H.et al.Interfacial Structure and Tribological Behaviours of Epoxy Resin Coating Reinforced with Graphene and Graphene Oxide[J].Surface and Interface Analysis,2017,49(2),85-92.
[33]CAI X,TAN S,XIE A.et al.Conductive Methyl Bluefunctionalized Reduced Graphene Oxide with Excellent Stability and Solubility in Water[J].Materials Research Bulletin,2011,46(12),2353-2358.
[34]JR W S H,OFFEMAN R E.Preparation of Graphitic Oxide[J].Journal of the American Chemical Society,195880(6),1339.
[35]DONG L,CHEN Z,ZHAO X.et al.A Non-dispersion Strategy for Large-scale Production of Ultra-high Concentration Graphene Slurries in Water[J].Nature Communications,2018,9(1),76.
[36]BAI G,WANG J,YANG Z.et al.Self-assembly of Ceria/Graphene Oxide Composite Films with Ultra-long Antiwear Lifetime under a High Applied Load[J].Carbon2015,84,197-206.
[37]OU J,LIU L,WANG J.et al.Fabrication and Tribologica Investigation of a Novel Hydrophobic Polydopamine/Graphene Oxide Multilayer Film[J].Tribology Letters2012,48(3),407-415.
[38]TAI Z,CHEN Y,AN Y.et al.Tribological Behavior of UHMWPE Reinforced with Graphene Oxide Nanosheets[J].Tribology Letters,2012,46(1),55-63.
[39]HUANG T,LI T,XIN Y.et al.Preparation and Utility of a Self-lubricating&Anti-wear Graphene Oxide/Nanopolytetrafluoroethylene Hybrid[J].RSC Advances,2014,4(38),19814-19823.
[40]XIN Y,LI T,GONG D.et al.Preparation and Tribologica Properties of Graphene Oxide/Nano-MoS2 Hybrid as Multidimensional Assembly Used in the Polyimide Nanocomposites[J].RSC Advances,2017,7(11),6323-6335.
[41]TONG L B,ZHANG J B,XU C.et al.Enhanced Corrosion and Wear Resistances by Graphene Oxide Coating on the Surface of Mg-Zn-Ca Alloy[J].Carbon,2016,109,340-351.
[42]WU J,HUANG X,BERGLUND K.et al.CuONanosheets Produced in Graphene Oxide Solution:An Excellent Anti-wear Additive for Self-Lubricating Polymer Composites[J].Composites Science and Technology,2018,162,86-92.
[43]LI J,ZENG X,REN T.et al.The Preparation of Graphene Oxide and Its Derivatives and Their Application in BioTribological Systems[J].Lubricants,2014,2(3),137.
[44]POTTS J R,SUN H L,ALAM T M.et al.Thermomechanical Properties of Chemically Modified Graphene/Poly(Methyl Methacrylate)Composites Made by in Situ Polymerization[J].Carbon,2011,49(8),2615-2623.
[45]STANKOVICH S,PINER R D,NGUYEN S T.et al.Synthesis and Exfoliation of Isocyanate-treated Graphene Oxide Nanoplatelets[J].Carbon 2006,44(15),3342-3347.
[46]WEI Z,MING Z,HONGWEI Z.et al.Tribological Properties of Oleic Acid-Modified Graphene as Lubricant Oil Additives[J].Journal of Physics D:Applied Physics,2011,44(20),205303.
[47]MO M,ZHAO W,CHEN Z.et al.Excellent Tribological and Anti-Corrosion Performance of Polyurethane Composite Coatings Reinforced with Functionalized Graphene and Graphene Oxide Nanosheets[J].RSCAdvances,2015,5(70),56486-56497.
[48]MUNGSE H P,KHATRI O P.Chemically Functionalized Reduced Graphene Oxide as a Novel Material for Reduction of Friction and Wear[J].The Journal of Physica Chemistry C,2014,118(26),14394-14402.
[49]YUAN M,SU F,CHEN Y.A Novel Nanomaterial of Graphene Oxide Dotted with Ni Nanoparticles Produced by Supercritical CO2-Assisted Deposition for Reducing Friction and Wear[J].ACS Applied Materials&Interfaces,2015,7(21),11604-11612.
[50]HU H,ZHA S,SUN G.et al.Evaluation of Scratch Resistance of Functionalized Graphene Oxide/Polysiloxane Nanocomposite Coatings[J].Progress in Organic Coatings,2018,117,118-129.
[51]ZHANG X,YING X,ZHANG M.et al.Investigation of Reinforced Performance of Modified Graphene Oxide/High Solid Content Polysiloxane Nanocomposite Coating Films[J].Journal of Materials Science,2018,54(4),3052-3068.
[2]HELLIO C,YEBRA D.Advances in Marine Antifouling Coatings and Technologies[M].Woodhead Publishing,2009,422-442.
[3]ZHOU J P,TAN Z Y,Liu Z L.et al.Preparation of Transparent Fluorocarbon/TiO2-SiO2Composite Coating with Improved Self-Cleaning Performance and Anti-Aging Property[J].Applied Surface Science,2016,396,161-168.
[4]MA H Y,WEI G S,LIU Y Q.et al.Effect of Elastomeric Nanoparticles on Properties of Phenolic Resin[J].Polymer,2005,46(23),10568-10573.
[5]ZHANG W W,LI G R,Zhang Q.et al.Self-Enhancing Thermal Insulation Performance of Bimodal-Structured Thermal Barrier Coating[J].Journal of Thermal Spray Technology,2018,27(7),1064-1075.
[6]YUAN R,WU S,YU P.et al.Superamphiphobic and Electroactive Nanocomposite toward Self-Cleaning,Antiwear,and Anticorrosion Coatings[J].ACS Applied Materials&Interfaces,2016,8(19),12481-12493.
[7]JIA Y L,WAN H Q,CHEN L.et al.Effects of nanoLaF3 on the friction and wear behaviors of PTFE-based bonded solid lubricating coatings under different lubrication conditions[J].Applied Surface Science,2016,382,73-79.
[8]NEMATI N,BOZORG M,PENKOV O V.et al.Functional Multi-Nanolayer Coatings of Amorphous Carbon/Tungsten Carbide with Exceptional Mechanical Durability and Corrosion Resistance[J].ACS Applied Materials&Interfaces,2017,9(35),30149-30160.
[9]苏海燕,闫军,崔海萍.改性耐磨涂料研究进展.现代涂料与涂装[J],2007,10(7),38-41.
[10]HUANG W,CHEN C J,JEAN M D.Development and Analysis of Robust Anti-Wear Design of a-C:Zr Films by Taguchi Methods[J].Advanced Materials Research,2011,189-193,3647-3652.
[11]WAN H,JIA Y,YE Y.et al.Tribological Behavior of Polyimide/Epoxy Resin-Polytetrafluoroethylene Bonded Solid Lubricant Coatings Filled with in Situ-synthesized Silver Nanoparticles[J].Progress in Organic Coatings,2017,106,111-118.
[12]KAWAMURA M,FUJITA K.Antiwear Property of Lubricant Additives for High Silicon Aluminium Alloy under Boundary Lubricating Conditions[J].Wear 1983,89(1),99-105.
[13]WANG M.Q,YAN J,CUI H P.et al.Preparation and Properties of Silicone Modified Epoxy Resin,Nano-TiO2and Nano-TiO2/Micron-Al2O3 Polymer Alloys Putty[J].Advanced Materials Research,2011,239-242,3009-3013.
[14]JOLY-POTTUZ L,VACHER B,OHMAE N.et al.Antiwear and Friction Reducing Mechanisms of Carbon Nanoonions as Lubricant Additives[J].Tribology Letters,2008,30(1),69-80.
[15]XU G,ZHOU Z,LIU J.et al.An Investigation of Fretting Behavior of Ion-Plated Tin,Magnetron-Sputtered MoS2 and Their Composite Coatings[J].Wear 1999,225(4),46-52.
[16]ALDANA P U,DASSENOY F,VACHER B.et al.WS2Nanoparticles Anti-Wear and Friction Reducing Properties on Rough Surfaces in the Presence of ZDDP Additive[J].Tribology International 2016,102,213-221.
[17]BARTZ W J.Solid Lubricant Additives-Effect of Concentration and Other Additives on Anti-Wear Performance[J].Wear,1971,17(5),421-432.
[18]RAMACHANDRAN S,TAO L,LEE T H.et al.Deposition and Patterning of Diamondlike Carbon as Antiwear Nanoimprint Templates[J].Journal of Vacuum Science&Technology,2006,24(6),2993-2997.
[19]CHEN S,SHEN B,CHEN Y.et al.Synergistic Frictionreducing and Anti-wear Behaviors of Graphene with Micro-And Nano-crystalline Diamond Films[J].Diamond&Related Materials,2017,73,25-32.
[20]LIANG H,BU Y,ZHANG J.et al.Graphene Oxide Film as Solid Lubricant[J].ACS Applied Materials&Interfaces,2013,5(13),6369-6375.
[21]LEE C,LI Q,KALB W.et al.Frictional Characteristics of Atomically Thin Sheets[J].Science,2010,328(5974),76-80.
[22]KIM K.S.,LEE H.J.,LEE C.et al.Chemical Vapor Deposition-Grown Graphene:The Thinnest Solid Lubricant[J].ACS Nano,2011,5(6),5107-5114.
[23]BERMAN D,ERDEMIR A,SUMANT A V.Graphene:ANew Emerging Lubricant[J].Materials Today,2014,17(1)31-42.
[24]QIN S,CHEN C,CUI M.et al.Facile Preparation of Polyimide/Graphene Nanocomposites via an in Situ Polymerization Approach[J].RSC Advances,2017,7(5),3003-3011.
[25]HUANG T,LU R,SU C.et al.Chemically Modified Graphene/Polyimide Composite Films Based on Utilization of Covalent Bonding and Oriented Distribution[J].ACSApplied Materials&Interfaces,2012,4(5),2699-2708.
[26]CHENG L,MENG X,XIAOWEN Z.et al.In Situ Synthesis of Monomer Casting Nylon-6/Graphene-Polysiloxane Nanocomposites:Intercalation Structure,Synergistic Reinforcing,and Friction-Reducing Effect[J].ACS Applied Materials&Interfaces,2017,9(38),33176-33190.
[27]LIU D,ZHAO W,LIU S.et al.Comparative Tribological and Corrosion Resistance Properties of Epoxy Composite Coatings Reinforced with Functionalized Fullerene C60 and Graphene[J].Surface and Coatings Technology,2016,286,354-364.
[28]YE X,LIU X,YANG Z.et al.Tribological Properties of Fluorinated Graphene Reinforced Polyimide Composite Coatings under Different Lubricated Conditions[J].Composites Part A:Applied Science and Manufacturing2016,81,282-288.
[29]CHU J H,TONG L.B,ZHANG J B.et al.Bio-inspired Graphene-based Coatings on Mg Alloy Surfaces and Their Integrations of Anti-corrosive/Wearable Performances[J]Carbon 2019,141,154-168.
[30]KAUPP G Mechanochemistry:the Varied Applications of Mechanical Bond-breaking[J].CrystEngComm.2009,11(3),388-403.
[31]KIM H,MACOSKO C W.Processing-property Relationships of Polycarbonate/Graphene Composites[J]Polymer 2009,50(15),3797-3809.
[32]WU F,ZHAO W.CHEN H.et al.Interfacial Structure and Tribological Behaviours of Epoxy Resin Coating Reinforced with Graphene and Graphene Oxide[J].Surface and Interface Analysis,2017,49(2),85-92.
[33]CAI X,TAN S,XIE A.et al.Conductive Methyl Bluefunctionalized Reduced Graphene Oxide with Excellent Stability and Solubility in Water[J].Materials Research Bulletin,2011,46(12),2353-2358.
[34]JR W S H,OFFEMAN R E.Preparation of Graphitic Oxide[J].Journal of the American Chemical Society,195880(6),1339.
[35]DONG L,CHEN Z,ZHAO X.et al.A Non-dispersion Strategy for Large-scale Production of Ultra-high Concentration Graphene Slurries in Water[J].Nature Communications,2018,9(1),76.
[36]BAI G,WANG J,YANG Z.et al.Self-assembly of Ceria/Graphene Oxide Composite Films with Ultra-long Antiwear Lifetime under a High Applied Load[J].Carbon2015,84,197-206.
[37]OU J,LIU L,WANG J.et al.Fabrication and Tribologica Investigation of a Novel Hydrophobic Polydopamine/Graphene Oxide Multilayer Film[J].Tribology Letters2012,48(3),407-415.
[38]TAI Z,CHEN Y,AN Y.et al.Tribological Behavior of UHMWPE Reinforced with Graphene Oxide Nanosheets[J].Tribology Letters,2012,46(1),55-63.
[39]HUANG T,LI T,XIN Y.et al.Preparation and Utility of a Self-lubricating&Anti-wear Graphene Oxide/Nanopolytetrafluoroethylene Hybrid[J].RSC Advances,2014,4(38),19814-19823.
[40]XIN Y,LI T,GONG D.et al.Preparation and Tribologica Properties of Graphene Oxide/Nano-MoS2 Hybrid as Multidimensional Assembly Used in the Polyimide Nanocomposites[J].RSC Advances,2017,7(11),6323-6335.
[41]TONG L B,ZHANG J B,XU C.et al.Enhanced Corrosion and Wear Resistances by Graphene Oxide Coating on the Surface of Mg-Zn-Ca Alloy[J].Carbon,2016,109,340-351.
[42]WU J,HUANG X,BERGLUND K.et al.CuONanosheets Produced in Graphene Oxide Solution:An Excellent Anti-wear Additive for Self-Lubricating Polymer Composites[J].Composites Science and Technology,2018,162,86-92.
[43]LI J,ZENG X,REN T.et al.The Preparation of Graphene Oxide and Its Derivatives and Their Application in BioTribological Systems[J].Lubricants,2014,2(3),137.
[44]POTTS J R,SUN H L,ALAM T M.et al.Thermomechanical Properties of Chemically Modified Graphene/Poly(Methyl Methacrylate)Composites Made by in Situ Polymerization[J].Carbon,2011,49(8),2615-2623.
[45]STANKOVICH S,PINER R D,NGUYEN S T.et al.Synthesis and Exfoliation of Isocyanate-treated Graphene Oxide Nanoplatelets[J].Carbon 2006,44(15),3342-3347.
[46]WEI Z,MING Z,HONGWEI Z.et al.Tribological Properties of Oleic Acid-Modified Graphene as Lubricant Oil Additives[J].Journal of Physics D:Applied Physics,2011,44(20),205303.
[47]MO M,ZHAO W,CHEN Z.et al.Excellent Tribological and Anti-Corrosion Performance of Polyurethane Composite Coatings Reinforced with Functionalized Graphene and Graphene Oxide Nanosheets[J].RSCAdvances,2015,5(70),56486-56497.
[48]MUNGSE H P,KHATRI O P.Chemically Functionalized Reduced Graphene Oxide as a Novel Material for Reduction of Friction and Wear[J].The Journal of Physica Chemistry C,2014,118(26),14394-14402.
[49]YUAN M,SU F,CHEN Y.A Novel Nanomaterial of Graphene Oxide Dotted with Ni Nanoparticles Produced by Supercritical CO2-Assisted Deposition for Reducing Friction and Wear[J].ACS Applied Materials&Interfaces,2015,7(21),11604-11612.
[50]HU H,ZHA S,SUN G.et al.Evaluation of Scratch Resistance of Functionalized Graphene Oxide/Polysiloxane Nanocomposite Coatings[J].Progress in Organic Coatings,2018,117,118-129.
[51]ZHANG X,YING X,ZHANG M.et al.Investigation of Reinforced Performance of Modified Graphene Oxide/High Solid Content Polysiloxane Nanocomposite Coating Films[J].Journal of Materials Science,2018,54(4),3052-3068.