腐蚀磨损的研究现状与发展趋势
|
摘要
综述了近几年腐蚀磨损领域的研究进展,重点阐述了腐蚀磨损的实验设备、腐蚀磨损的影响因素、试验方法、交互作用以及利用表面改性提高材料腐蚀磨损的研究进展状况,并阐述了未来腐蚀磨损的研究方向。
The research progress in the field of corrosion and wear in recent years was reviewed. The experimental equipment of corrosion and wear, the influencing factors of corrosion and wear, the test methods, the interaction and the research progress of improving the corrosion and wear of materials by surface modification were described in detail. The research direction of corrosion and wear in the future were also described.
The research progress in the field of corrosion and wear in recent years was reviewed. The experimental equipment of corrosion and wear, the influencing factors of corrosion and wear, the test methods, the interaction and the research progress of improving the corrosion and wear of materials by surface modification were described in detail. The research direction of corrosion and wear in the future were also described.
引文
[1]姜晓霞,李诗卓,李曙.金属的腐蚀磨损[M].北京:工业装备与信息工程出版中心,2003.
[2]Allen C,Ball A.A review of the performance of engineering materials under prevalent tribological and wear situations in South African industries[J].Tribology International,1996,29(2):105-116.
[3]Hassani S,Klemberg-Sapieha J E,Bielawski M,et al.Design of hard coating architecture for the optimization of erosion resistance[J].Wear,2008,265(5-5):879-887.
[4]Fang Q,Sidky P,Hocking M G.Erosive wear behaviour of aluminium based composites[J].Materials&Design,1997,18(4–6):389-393.
[5]蒋业华,李祖来,戚亭,等.氧化铝矿用渣浆泵过流件高铬铸铁Cr28的腐蚀磨损性能[J].铸造技术,2006,27(4):333-336.
[6]Salasi M,Stachowiak G B,Stachowiak G W.New Experimental Rig to Investigate Abrasive-Corrosive Characteristics of Metals in Aqueous Media[J].Tribology Letters,2010,40(1):71-84.
[7]路新春,张天成.三种腐蚀磨损试验机与两种不锈钢腐蚀磨损性能的研究[J].摩擦学学报,1994,14(2):97-104.
[8]刘英杰,成克强.磨损失效分析基础[M].北京:机械工业出版社,1991.
[9]Turenne S,Fiset M,Masounave J.The effect of sand concentration on the erosion of materials by a slurry jet[J].Wear,1989,133(1):95-106.
[10]Das S,Mondal D P,Modi O P,et al.Influence of experimental parameters on the erosive-corrosive wear of Al-Si C particle composite[J].Wear,1999,231(2):195-205.
[11]Al-Bukhaiti M A,Ahmed S M,Badran F M F,et al.Effect of impingement angle on slurry erosion behaviour and mechanisms of1017 steel and high-chromium white cast iron[J].Wear,2007,262(9-10):1187-1198.
[12]Veleva L,Alpuche-Aviles M A,Graves-Brook M K,et al.Comparative cyclic voltammetry and surface analysis of passive films grown on stainless steel 316 in concrete pore model solutions[J].Journal of Electroanalytical Chemistry,2002,537(1-2):85-93.
[13]Ibrahim M A M,Rehim S S A E,Hamza M M.Corrosion behavior of some austenitic stainless steels in chloride environments[J].Materials Chemistry&Physics,2009,115(1):80-85.
[14]Montemor M F,Cunha M P,Ferreira M G,et al.Corrosion behaviour of rebars in fly ash mortar exposed to carbon dioxide and chlorides[J].Cement&Concrete Composites,2002,24(1):45-53.
[15]Feng L,Yang H,Wang F.Experimental and theoretical studies for corrosion inhibition of carbon steel by imidazoline derivative in5%Na Cl saturated Ca(OH)2,solution[J].Electrochimica Acta,2011,58(1):427-436.
[16]Madsen B W.Measurement of erosion-corrosion synergism with a slurry wear test apparatus[J].Wear,1988,123(2):127-142.
[17]Bester J A,Ball A.The performance of aluminium alloys and particulate reinforced aluminium metal matrix composites in erosive-corrosive slurry environments[J].Wear,1993,s 162-164(93):57-63.
[18]Watson S W,Friedersdorf F J,Madsen B W,et al.Methods of measuring wear-corrosion synergism[J].Wear,1995,181(2):476-484.
[19]奚运涛,刘道新,韩栋,等.低温离子渗氮提高2Cr13不锈钢的冲蚀磨损与冲刷腐蚀抗力[J].材料工程,2007(11):76-81.
[20]黄玉堂,周上祺,周安若.氮气-甲烷离子氮碳共渗后钢的耐磨耐蚀性能研究[J].热处理技术与装备,2010,31(4):36-39.
[21]刘洪喜,蒋业华,周荣,等.TC4合金表面全方位离子注入Ag的耐摩擦磨损和抗腐蚀性能[J].稀有金属材料与工程,2009,38(12):2126-2130.
[22]Berget J,Rogne T,Bardal E.Erosion–corrosion properties of different WC-Co-Cr coatings deposited by the HVOF process—influence of metallic matrix composition and spray powder size distribution[J].Surface&Coatings Technology,2007,201(18):7619-7625.
[23]Shan L,Zhang Y R,Wang Y X,et al.Corrosion and wear behaviors of PVD Cr N and Cr Si N coatings in seawater[J].Transactions of Nonferrous Metals Society of China,2016,26(1):175-184.
[24]Ye Y,Wang Y,Chen H,et al.Doping carbon to improve the tribological performance of Cr N Coatings in seawater[J].Tribology International,2015,90:362-371.
[25]杨晓倩,李亚江,马群双,等.激光熔覆工艺研究现状及发展[J].机械制造文摘(焊接分册),2015(1):30-34.
[26]李琦,刘洪喜,张晓伟,等.铝合金表面激光熔覆Ni Cr Al/Ti C复合涂层的磨损行为和耐蚀性能[J].中国有色金属学报,2014,24(11):2805-2812.
[2]Allen C,Ball A.A review of the performance of engineering materials under prevalent tribological and wear situations in South African industries[J].Tribology International,1996,29(2):105-116.
[3]Hassani S,Klemberg-Sapieha J E,Bielawski M,et al.Design of hard coating architecture for the optimization of erosion resistance[J].Wear,2008,265(5-5):879-887.
[4]Fang Q,Sidky P,Hocking M G.Erosive wear behaviour of aluminium based composites[J].Materials&Design,1997,18(4–6):389-393.
[5]蒋业华,李祖来,戚亭,等.氧化铝矿用渣浆泵过流件高铬铸铁Cr28的腐蚀磨损性能[J].铸造技术,2006,27(4):333-336.
[6]Salasi M,Stachowiak G B,Stachowiak G W.New Experimental Rig to Investigate Abrasive-Corrosive Characteristics of Metals in Aqueous Media[J].Tribology Letters,2010,40(1):71-84.
[7]路新春,张天成.三种腐蚀磨损试验机与两种不锈钢腐蚀磨损性能的研究[J].摩擦学学报,1994,14(2):97-104.
[8]刘英杰,成克强.磨损失效分析基础[M].北京:机械工业出版社,1991.
[9]Turenne S,Fiset M,Masounave J.The effect of sand concentration on the erosion of materials by a slurry jet[J].Wear,1989,133(1):95-106.
[10]Das S,Mondal D P,Modi O P,et al.Influence of experimental parameters on the erosive-corrosive wear of Al-Si C particle composite[J].Wear,1999,231(2):195-205.
[11]Al-Bukhaiti M A,Ahmed S M,Badran F M F,et al.Effect of impingement angle on slurry erosion behaviour and mechanisms of1017 steel and high-chromium white cast iron[J].Wear,2007,262(9-10):1187-1198.
[12]Veleva L,Alpuche-Aviles M A,Graves-Brook M K,et al.Comparative cyclic voltammetry and surface analysis of passive films grown on stainless steel 316 in concrete pore model solutions[J].Journal of Electroanalytical Chemistry,2002,537(1-2):85-93.
[13]Ibrahim M A M,Rehim S S A E,Hamza M M.Corrosion behavior of some austenitic stainless steels in chloride environments[J].Materials Chemistry&Physics,2009,115(1):80-85.
[14]Montemor M F,Cunha M P,Ferreira M G,et al.Corrosion behaviour of rebars in fly ash mortar exposed to carbon dioxide and chlorides[J].Cement&Concrete Composites,2002,24(1):45-53.
[15]Feng L,Yang H,Wang F.Experimental and theoretical studies for corrosion inhibition of carbon steel by imidazoline derivative in5%Na Cl saturated Ca(OH)2,solution[J].Electrochimica Acta,2011,58(1):427-436.
[16]Madsen B W.Measurement of erosion-corrosion synergism with a slurry wear test apparatus[J].Wear,1988,123(2):127-142.
[17]Bester J A,Ball A.The performance of aluminium alloys and particulate reinforced aluminium metal matrix composites in erosive-corrosive slurry environments[J].Wear,1993,s 162-164(93):57-63.
[18]Watson S W,Friedersdorf F J,Madsen B W,et al.Methods of measuring wear-corrosion synergism[J].Wear,1995,181(2):476-484.
[19]奚运涛,刘道新,韩栋,等.低温离子渗氮提高2Cr13不锈钢的冲蚀磨损与冲刷腐蚀抗力[J].材料工程,2007(11):76-81.
[20]黄玉堂,周上祺,周安若.氮气-甲烷离子氮碳共渗后钢的耐磨耐蚀性能研究[J].热处理技术与装备,2010,31(4):36-39.
[21]刘洪喜,蒋业华,周荣,等.TC4合金表面全方位离子注入Ag的耐摩擦磨损和抗腐蚀性能[J].稀有金属材料与工程,2009,38(12):2126-2130.
[22]Berget J,Rogne T,Bardal E.Erosion–corrosion properties of different WC-Co-Cr coatings deposited by the HVOF process—influence of metallic matrix composition and spray powder size distribution[J].Surface&Coatings Technology,2007,201(18):7619-7625.
[23]Shan L,Zhang Y R,Wang Y X,et al.Corrosion and wear behaviors of PVD Cr N and Cr Si N coatings in seawater[J].Transactions of Nonferrous Metals Society of China,2016,26(1):175-184.
[24]Ye Y,Wang Y,Chen H,et al.Doping carbon to improve the tribological performance of Cr N Coatings in seawater[J].Tribology International,2015,90:362-371.
[25]杨晓倩,李亚江,马群双,等.激光熔覆工艺研究现状及发展[J].机械制造文摘(焊接分册),2015(1):30-34.
[26]李琦,刘洪喜,张晓伟,等.铝合金表面激光熔覆Ni Cr Al/Ti C复合涂层的磨损行为和耐蚀性能[J].中国有色金属学报,2014,24(11):2805-2812.