石墨烯或氧化石墨烯改性有机涂层耐蚀性能的研究现状
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摘要
介绍了石墨烯和氧化石墨烯的功能化方法及其改性有机涂层在防腐领域中的研究现状,探讨了现阶段研究所面临的问题与未来的研究方向。
The methods for functionalization of graphene and graphene oxide were introduced. The current status of research on graphene or graphene oxide modified coatings for anticorrosion applications was reviewed. The existing problems in research of this field and the future research trends were discussed.
The methods for functionalization of graphene and graphene oxide were introduced. The current status of research on graphene or graphene oxide modified coatings for anticorrosion applications was reviewed. The existing problems in research of this field and the future research trends were discussed.
引文
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[2]POMMERSHEIM J M,NGUYEN T,ZHANG Z H,et al.Degradation of organic coatings on steel:mathematical models and predictions[J].Progress in Organic Coatings,1994,25(1):23-41.
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[4]LENG A,STRECKEL H,STRATMANN M.The delamination of polymeric coatings from steel.Part 2:first stage of delamination,effect of type and concentration of cations on delamination,chemical analysis of the interface[J].Corrosion Science,1998,41(3):579-597.
[5]LENG A,STRECKEL H,HOFMANN K,et al.The delamination of polymeric coatings from steel Part 3:effect of the oxygen partial pressure on the delamination reaction and current distribution at the metal/polymer interface[J].Corrosion Science,1998,41(3):599-620.
[6]FüRBETH W,STRATMANN M.The delamination of polymeric coatings from electrogalvanised steel-a mechanistic approach.Part 1:delamination from a defect with intact zinc layer[J].Corrosion Science,2001,43(2):207-227.
[7]FüRBETH W,STRATMANN M.The delamination of polymeric coatings from electrogalvanized steel-a mechanistic approach.Part 2:delamination from a defect down to steel[J].Corrosion Science,2001,43(2):229-241.
[8]FüRBETH W,STRATMANN M.The delamination of polymeric coatings from electrogalvanized steel-a mechanistic approach.Part 3:delamination kinetics and influence of CO2[J].Corrosion Science.2001,43(2):243-254.
[9]ALLAHAR K N,ORAZEM M E,OGLE K.Mathematical model for cathodic delamination using a porosity-pH relationship[J].Corrosion Science,2007,49(9):3638-3658.
[10]MONTOYA R,GARCíA-GALVáN F R,JIMéNEZ-MORALES A,et al.A cathodic delamination study of coatings with and without mechanical defects[J].Corrosion Science,2014,82:432-436.
[11]NAVARCHIAN A H,JOULAZADEH M,KARIMI F.Investigation of corrosion protection performance of epoxy coatings modified by polyaniline/clay nanocomposites on steel surfaces[J].Progress in Organic Coatings,2014,77(2):347-353.
[12]GHAZI A,GHASEMI E,MANDAVIAN M,et al.The application of benzimidazole and zinc cations intercalated sodium montmorillonite as smart ion exchange inhibiting pigments in the epoxy ester coating[J].Corrosion Science,2015,94:207-217.
[13]LI J,ECCO L,FEDEL M,et al.In-situ AFM and EIS study of a solventborne alkyd coating with nanoclay for corrosion protection of carbon steel[J].Progress in Organic Coatings,2015,87:179-188.
[14]LEE C K.Fabrication,characterization and wear corrosion testing of bioactive hydroxyapatite/nano-TiO2 composite coatings on anodic Ti-6Al-4V substrate for biomedical applications[J].Materials Science and Engineering:B,2012,177(11):810-818.
[15]DEYAB M A,KEERA S T.Effect of nano-TiO2 particles size on the corrosion resistance of alkyd coating[J].Materials Chemistry and Physics,2014,146(3):406-411.
[16]SAHNESARAYI M K,SARPOOLAKY H,RASTEGARI S.Effect of heat treatment temperature on the performance of nano-TiO2 coating in protecting 316Lstainless steel against corrosion under UV illumination and dark conditions[J].Surface and Coatings Technology,2014,258:861-870.
[17]RAMEZANZADEH B,ATTAR M M.Studying the corrosion resistance and hydrolytic degradation of an epoxy coating containing ZnO nanoparticles[J].Materials Chemistry and Physics,2011,130(3):1208-1219.
[18]RAMEZANZADEH B,ATTAR M M,FARZAM M.A study on the anticorrosion performance of the epoxy-polyamide nanocomposites containing ZnOnanoparticles[J].Progress in Organic Coatings,2011,72(3):410-422.
[19]RAMEZANZADEH B,ATTAR M M.Studying the effects of micro and nano sized ZnO particles on the corrosion resistance and deterioration behavior of an epoxy-polyamide coating on hot-dip galvanized steel[J].Progress in Organic Coatings,2011,71(3):314-328.
[20]DHOKE S K,KHANNA A S.Effect of nano-Fe2O3 particles on the corrosion behavior of alkyd based waterborne coatings[J].Corrosion Science,2009,51(1):6-20.
[21]PALIMI M J,ROSTAMI M,MAHDAVIAN M,et al.A study on the corrosion inhibition properties of silane-modified Fe2O3 nanoparticle on mild steel and its effect on the anticorrosion properties of the polyurethane coating[J].Journal of Coatings Technology and Research,2015,12(2):277-292.
[22]GOLRU S S,ATTAR M M,RAMEZANZADEH B.Studying the influence of nano-Al2O3 particles on the corrosion performance and hydrolytic degradation resistance of an epoxy/polyamide coating on AA-1050[J].Progress in Organic Coatings,2014,77(9):1391-1399.
[23]MA L,CHEN F F,LI Z T,et al.Preparation and anticorrosion property of poly(2,3-dimethylaniline)modified by nano-SiO2[J].Composites Part B:Engineering,2014,58:54-58.
[24]GHANBARI A,ATTAR M M.A study on the anticorrosion performance of epoxy nanocomposite coatings containing epoxy-silane treated nano-silica on mild steel substrate[J].Journal of Industrial and Engineering Chemistry,2015,23:145-153.
[25]MATIN E,ATTAR M M,RAMEZANZADEH B.Investigation of corrosion protection properties of an epoxy nanocomposite loaded with polysiloxane surface modified nanosilica particles on the steel substrate[J].Progress in Organic Coatings,2015,78:395-403.
[26]BUNCH J S,VERBRIDGE S S,ALDEN J S,et al.Impermeable atomic membranes from graphene sheets[J].Nano Letters,2008,8(8):2458-2462.
[27]GUDARZI M M,SHARIF F.Enhancement of dispersion and bonding of graphene-polymer through wet transfer of functionalized graphene oxide[J].e XPRESS Polymer Letters,2012,6(12):1017-1031.
[28]PRASAI D,TUBERQUIA J C,HARL R R,et al.Graphene:corrosion-inhibiting coating[J].ACS Nano,2012,6(2):1102-1108.
[29]RAMAN R K S,BANERJEE P C,LOBO D E,et al.Protecting copper from electrochemical degradation by graphene coating[J].Carbon,2012,50(11):4040-4045.
[30]SCHRIVER M,REGAN W,GANNETT W J,et al.Graphene as a long-term metal oxidation barrier:worse than nothing[J].ACS Nano,2013,7(7):5763-5768.
[31]SINGH B P,NAYAK S,NANDA K K,et al.The production of a corrosion resistant graphene reinforced composite coating on copper by electrophoretic deposition[J].Carbon,2013,61:47-56.
[32]PU N W,SHI G N,LIU Y M,et al.Graphene grown on stainless steel as a high-performance and ecofriendly anti-corrosion coating for polymer electrolyte membrane fuel cell bipolar plates[J].Journal of Power Sources,2015,282:248-256.
[33]RAJABI M,RASHED G I,ZAAREI D.Assessment of graphene oxide/epoxy nanocomposite as corrosion resistance coating on carbon steel[J].Corrosion Engineering Science and Technology,2015,50(7):509-516.
[34]RAMEZANZADEH B,GHASEMI E,MAHDAVIAN M,et al.Covalently-grafted graphene oxide nanosheets to improve barrier and corrosion protection properties of polyurethane coatings[J].Carbon,2015,93:555-573.
[35]YU Z X,DI H H,MA Y,et al.Fabrication of graphene oxide-alumina hybrids to reinforce the anti-corrosion performance of composite epoxy coatings[J].Applied Surface Science,2015,351:986-996.
[36]YU Z X,DI H H,MA Y,et al.Preparation of graphene oxide modified by titanium dioxide to enhance the anti-corrosion performance of epoxy coatings[J].Surface and Coatings Technology,2015,276:471-478.
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