铝基复合材料的腐蚀与防护研究现状

中国腐蚀与防护学报

2008, Vol. 28

Issue (1): 59-64

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铝基复合材料的腐蚀与防护研究现状

王春雨

哈尔滨工业大学材料学院

A review for study on corrosion and protection methods for aluminum matrix composites

哈尔滨工业大学材料学院

全文: PDF(1254 KB)

摘要: 对Cf /Al? SiC/Al? Al2O3/Al三种铝基复合材料的腐蚀研究现状和防护方法进行了讨论?Cf /Al复合材料以电偶腐蚀为主?SiC/Al 复合材料的腐蚀多发生在碳化硅纤维和铝基体的界面处,其原因是界面处的缝隙容易导致孔蚀和缝隙腐蚀,并最终可能造成表面剥层?Al2O3是绝缘体,与Al不存在电偶腐蚀,同SiC/Al和Cf/Al等相比具有更高的耐腐蚀性?目前提高铝基复合材料的防腐蚀性能的方法,主要包括铝基复合材料表面阳极氧化防护膜?表面化学钝化防护膜?其他表面涂镀层?增强体表面涂层?基体合金化等?最后展望铝基复合材料腐蚀与防护的研究和发展?

关键词 ：铝基复合材料, 腐蚀性能, 防护方法

Abstract：Currently,along with the application of aluminum matrix composites,studies of corrosion resistance would be necessary. From the comprehensive review presented in this article, corrosion resistant properties and protection methods for three materials Cf /Al, SiC/Al, Al2O3/Al are pointed out. There are three kinds corrosion mechanism for Cf /Al composites, galvanic corrosion, hydrolysis of Al4C3, denudation on the interface, the gal?鄄vanic couples corrosion is standing out. The surfaces between SiC and aluminum come forth corrosion distinctly from SiC/Al composite interface, because in evidence of pitting and crevice corrosion there, which would be formed denudation. Al2O3 is insulator,none galvanic couples come from Al2O3/Al composite, it is higher corrosion resistance than Cf /Al composite and SiC/Al composite.It is concluded that the surface coating on the composites, the reinforcement surface coatings,alloyed in the Al-based were the improvement methods of corrosion resis?鄄tance. It is valuable to improve corrosion resistance and protection for aluminum metal matrix composites.

Key words： aluminum matrix composites anticorrosion properties protection methods

收稿日期: 2006-04-13

通讯作者: 王春雨 E-mail: wcyadam@126.com

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王春雨 . 铝基复合材料的腐蚀与防护研究现状[J]. 中国腐蚀与防护学报, 2008, 28(1): 59-64 .

链接本文:

https://www.jcscp.org/CN/Y2008/V28/I1/59

[1]Brian Ralph,Yuen H C,Lee W B.The processing of metal matrix composites-an overview[J].Mater.Pro.Technol.,1997,63:339-353
[2]Mansfeld F,Jeanjaquet S L.The evaluation of corrosion protection measures for metal matrix composites[J].Corros.Sci.,1986,26(9):727-734
[3]Greene H J,Mansfeld F.Corrosion protection of aluminum-matrix composites[J].Corrosion,1997,53(12):920-927
[4]Zeng J C,Luo Q T,Yu Z.The Physical and Chemical Properties of Composites[M].China:Press of National Defence Science and Technology University,1998(曾竟成,罗青唐,羽章编著.复合材料理化性能[M].中国:国防科技大学出版社,1998)
[5]He C L,Cai Q K.Recent developments in research on corrosion of aluminum metal matrix composites[J].Mater.Guide Reports.,2003,1(17):45-47(贺春林,才庆魁.铝金属基复合材料的腐蚀研究进展[J].材料导报,2003,1(17):145-47)
[6]Aylor D M,Moran P J.Effects of reinforcement on the pitting be-havior of aluminum-based metal matrix composites[J].Elec-trochem.Soc.,1985,132(6):1277-1280
[7]Guo S Q,Sui Q W,Tang F J.Factors of influence on corrosion resistance of carbon-aluminum composites[J].Acta Mater.Com-pos.Sin.,1991,3(8):9-15(郭树启,隋全武,唐风军等.影响碳-铝复合材料耐蚀性的因素[J].复合材料学报,1991,3(8):9-15)
[8]Yoshiaki Shimizu,Toshiyasu Nishimura,Iwao Matsushima.Corro-sion resistance of Al-based metal matrix composites[J].Mater.Sci.Eng.,1995,(A198):l l3-118
[9]Hihara L H,Latanision R M.Galvanic corrosion of aluminum-ma-trix composites[J].Corrosion,1992,7(48):546-552
[10]Hu J,Luo R S,Yao Z K,et al.Corrosion behavior of aluminum based composite[J].Corros.Sci.Prot.Technol.,2000,12(4):234-236(胡津,罗仁胜,姚忠凯等.铝基复合材料的腐蚀行为[J].腐蚀科学与防护技术,2000,12(4):234-236)
[11]Mansfeld F,Lin S,Kim S,et al.Corrosion protection of Al al-loys and Al-based metal matrix composites by chemical passiva-tion[J].Corrosion,1989,45(8):615-630
[12]Yu X W,Cao C N,Lin H C,et al.Development of rare earth metal conversion coatings on aluminum alloys[J].J.Chin.Soc.Corros.Prot.,2000,20(5):298-307(于兴文,曹楚南,林海潮等.铝合金表面转化膜研究进展[J].中国腐蚀与防护学报,2000,20(5):298-307)
[13]Zaki Ahmad,Abdul Aleem B J.Degradation of aluminum metal matrix composites in salt water and its control[J].Mater.Des.,2002(23):173-180
[14]Aylor D M,Moran P J.Effects of reinforcement on the pitting be-havior of aluminum-based metal matrix composites[J].Elec-trochem.Soc..1985,132(6):1277-1280
[15]Trazaskoma P P,McCaffery E M,Crowe C R.Corrosion behavior of SiC/Al metal matrix composites[J].Electrochem.Soc.,1983,130(9):1804-1809
[16]Sennur Candan.Effect of SiC particle size on corrosion behavior of pressure infiltrated Al matrix composites in a NaCl solution[J].Mater.Lett.,2004,(58):3601-3605
[17]Kiourtsidis G,Skolianos S M.Corrosion behavior of squeeze-cast silicon carbide-2024composites in aerated3.5wt%sodium chlo-ride[J].Mater.Sci.Eng.,1998,A248(1/2):165-172
[18]Nunes P C R,Ramanatham L V.Corrosion behavior of aluminum and silicon carbide-aluminum metal matrix composites[J].Cor-rosion,1995,51(8):610-617
[19]Hu J.Studies of corrosion behavior on aluminum matrix compos-ites by whisker reinforcement[D].Harbin:Harbin Istitute Tech-nology,2002(胡津.晶须增强铝复合材料的腐蚀行为研究[D].哈尔滨工业大学博士学位论文,2002)
[20]Wendt R G,Moshier W C,Shaw B,et al.Corrosion resistant aluminum matrix for graphite-aluminum composites[J].Corrosion,1994,11(50):819-826
[21]Abdel Salam Hamdy,Anna Maria Beccaria,Tatiana Temtchenko.Improving the corrosion protection of AA6061T6-10%Al2O3us-ing new surface pre-treatments prior to fluoropolymer coatings.[J].Surf.Coat.Technol.,2002,155:184-189
[22]Bai Y,Han E H,Tan R B,et al.Research on properties of alu-minum matrix composites[J].Mater.Prot.,2003,9(36):5-7(白芸,韩恩厚,谭若兵等.铝基复合材料性能的研究现状[J].材料保护,2003,9(36):5-7)
[23]Aylor D M,Moran P J.Pitting corrosion behavior of6061alu-minum alloy foils in sea water[J].Electrochem.Soc.,1986,133(5):949-951
[24]Shahid M.Mechanism of film growth during anodizing of Al8090/SiC metal matrix composites in sulphuric acid electrolyte[J].J.Mater.Sci.,1997,32:3775-3781
[25]Twite R L,Bierwagen G P.Review of alternatives to chromate for corrosion protection of aluminum aerospace alloys[J].Prog.Org Coat.,1998,33:91-100
[26]Mansfeld F,Lin S,Kim S,et al.Corrosion protection of Al alloys and Al based metal matrix composites by chemical passivation[J].Corrosion,1989,45(8):615-629
[27]Chen C,Mansfeld F.Corrosion protection of an Al6092/SiCP metal matrix composites[J].Corros.Sci.,1997,39:1075-1082
[28]Yu X W,Zhong Y H,Zhou D R,et al.Study of rare earth metal(REM)conversion coating on aluminum-based metal matrix com-posites(MMC)Al6061/SiCP[J].Mater.Compos.Sin.,2000,17(2):30-33(于兴文,周育红,周德瑞等.铝金属基复合材料Al6061/SiCP表面稀土转化膜的研究[J].复合材料学报,2000,17(2):30-33)
[29]Mansfeld F.Surface modification of Al/15%SiC metal matrix com-posites in molten salts containing CeCl3[J].Surf.Coat.Technol.,1996,86-87:449
[30]Mansfeld F,Jeanjaquet S L.The evaluation of corrosion protection measures for metal matrix composites[J].J.Corros.Sci.,1986,26(9):727-734
[31]Gu B S,Liu J H,Ji X C.Corrosion inhibition mechanism of ceri-um(III)for aluminum alloy[J].J.Chin.Soc.Corros.Prot.,2006,26(1):53-59(顾宝珊,刘建华,纪晓春.铈盐对铝合金的缓蚀机理研究[J].中国腐蚀与防护学报,2006,26(1):53-59)
[32]Wu Y X,Man H C.Laser surface treatment of aluminium6013/SiCP composite for corrosion resistance enhancement[J].Surf.Coat.Technol.,1999(114):13-18
[33]Annett Dornera,Bernhard Wielagea,Christian Schuhrer.Im-provement of the corrosion resistance of C/Al-composites by dia-mond-like carbon coatings[J].Thin Solid Films,1999,(355-356):214-218
[34]Wu G H,Wang C Y,Kang P C,et al.The improvement of cor-rosion resistant for the Cf/Al composites by Ni-P coatings[J].APCFS06,2006
[35]Bhagat R B,Amateau M F,Conway J R,et al.The corrosion protection of Cf/Al in3.5%sodium chloride[J].Compos.Mater.,1989,23:961-971
[36]Chu S J,Wang H W,Wu R J.Investigation on the properties of carbon fibre with C-Si functionally graded coating[J].Surf.Coat.Technol.,1996,(88):38～43
[37]Silvaina J F,Proultb A,Lahayea M,Douinc J.Microstructure and chemical analysis of C/Cu/Al interfacial zones[J].Compos.,2003,A(34):1143～1149
[38]Sobczak N,Sobczak J,Seal S,Morgiel J.TEM examination of the effect of the Al/C interface structure[J].Mater.Chem.Phys.,2003,(81):319～322
[39]Yu Z Q,Wu G H,Sun D L.Reinforcement coatings and interfaces in aluminium metal matrix composites[J].Mater.Eng.,2001,(10):13-17(于志强,武高辉,孙东立.铝基复合材料增强体涂层与界面[J].材料工程,2001,(10):13～17)
[40]Wang Y Q,Zhou B L.Effect of a fiber coating on the fabrication of fiber reinforced metal-matrix composites[J].J.Mater.Process Technol.,1998,(73):78～81
[41]Wielage B,Dorner A.Corrosion studies on aluminumreinforced with uncoated and coated carbon fibres[J].Compos.Sci.Techno.,1999,59:1239-1245
[42]Yu Z Q,Chen J F,Wu G H,et al.Present progress on studies of reinforcement carbon,silicon,carbide and alumina surface coatings in aluminum metal matrix composites[J].J.Aeronaut.Mater.,2002,2(22):54-61.(于志强,陈剑锋,武高等.铝基复合材料增强体碳、碳化硅和氧化铝表面涂层研究进展[J].航空材料学报,2002,2(22):54-61)
[43]Andreatta F,Terryn H,Wit J H W.Effect of solution heat treat-ment on galvanic coupling between intermetallics and matrix in AA7075-T6[J].Corros.Sci.,2003,(45):1733-1746
[44]Lu F,Zhang X Y,Tang Z H,et al.Galvanic corrosion behavior between carbon fiber reinforced plastic materials and aluminum al-loys[J].J.Chin.Soc.Corro.Prot.,2005,25(1):39-43(陆峰,张晓云,汤智慧等.碳纤维复合材料与铝合金电偶腐蚀行为研究[J].中国腐蚀与防护学报,2005,25(1):39-43)
[45]Hu J,Kong H K,Xu L X,et al.Effect of ageing on stress cor-rosion cracking behavior of SiCw/2024Al composite[J].J.Chin.Soc.Corro.Prot.,2003,6(23):359-361(胡津,孔海宽,徐丽新等.时效对SiCw/2024Al复合材料应力腐蚀开裂行为的影响[J].中国腐蚀与防护学报,2003,6(23):359-361)

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