高强铝合金应力腐蚀研究进展

中国腐蚀与防护学报

2008, Vol. 28

Issue (4): 251-256

研究报告

本期目录 | 过刊浏览

高强铝合金应力腐蚀研究进展

杜爱华;龙晋明;裴和中

昆明理工大学材料与冶金工程学院

INVESTIGATION OF STRESS C0RROSI0N CRACKING 0F

昆明理工大学

全文: PDF(1307 KB)

摘要: 以7xxx系列高强铝合金为主，简述了Al合金的应力腐蚀机理，重点讨论了影响应力腐蚀开裂的主要因素，同时介绍了几种新的SCC试验的研究方法，并指出进一步研究SCC理论对提高铝合金的抗应力腐蚀性能有重要意义。

关键词 ：高强铝合金, 应力腐蚀, 研究进展

Abstract：A brief review of the SCC mechanism of 7xxx series aluminum alloys and the main factors which influence the SCC behavior of 7xxx series aluminum alloys are discussed at emphasis, meanwhile，Several new methods which can applied to SCC tests are introduced. Finally, the importance to further research SCC theory of Al alloy for increasing their SCC resistance is emphasized.

Key words：

收稿日期: 2006-11-24

ZTFLH:

TG172.9

通讯作者: 杜爱华 E-mail: dah2000@126.com

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杜爱华; 龙晋明; 裴和中 . 高强铝合金应力腐蚀研究进展[J]. 中国腐蚀与防护学报, 2008, 28(4): 251-256 .

链接本文:

https://www.jcscp.org/CN/Y2008/V28/I4/251

[1]Speidel MO.The theory of Stress Corrosion Cracking in Alloys[M].1971:289～344
[2]Song R G,Dietzel W.Stress corrosion cracking and hydrogen em-brittlement of an A1-Zn-Mg-Cu alloy[J].Acta Mater.,2004,52(16):4727-4743
[3]Caechowski M.Stress Corrosion crackingofaluminiumalloyand theirwelded joints[A].7th Polish Corrosion Conference VII Ogolnopol-ska Konferencja[C].Poland:Krakow,2002,17-21
[4]Starink M J,Wang S C.A model for the yield strength of overagedAl-Zn-Mg-Cu alloys[J].Acta Mater.,2003,51(17):5131-5150
[5]Viswandham R K,Sun T S.The Mg-H composite theory of stresscorrosion cracking in aluminium alloys[J].Metall.Trans.,1980,11A(6):85-89
[6]Gruhl W,Metallkd Z.Stress corrosion cracking of high strength a-luminium alloys[J].Mater.Sci.Eng.,1984,75(1):819-826
[7]Puiggali M,Zielinski A.Effect of microstructure on stress corrosioncracking of an A1ZnMgCu alloy[J].Corros.Sci.,1998,40(4/5):805-819
[8]Scanmans G M,Holmyd N J H,Tuck C D S.The mechanism ofmagnesium segregation in the intergranular stress corrosion crack-ing of aluminium alloys[J].Corros.Sci.,1987,27(4):329-347
[9]Ren G J,Zhao C Y.Electrochemical behaviour inside the stresscorrosion cracking of aluminum alloy[J].J.Shenyang.Inst.Tech-nol.,2002,21(2):110-113(任广军,赵春英.铝合金应力腐蚀裂纹内的电化学行为[J].沈阳工业学院学报,2002,21(2):110-113)
[10]Liu J H,Li D,Zhu G W.Stress corrosion susceptibility of 7075aluminium alloy studied by SSRT and electrochemical tests[J].Corros.Prot.,2005,26(1):6-9(刘继华,李荻,朱国伟.7075铝合金应力腐蚀敏感性的SSRT和电化学测试研究[J].腐蚀与防护,2005,26(1):6-9)
[11]Tsai T C,Chuang T H.Stress corrosion cracking of superplastical-ly formed 7475 aluminum alloy[J].Metall.Mater.Trans.,1996,28A(10):2113-2121
[12]Liu J H,Li D,Liu P Y.The effect of aging and retrogressiontreatment on mechanical and corrosion property of 7075 alumini-um alloy[J].Trans.Metall.Heat.Treat.,2002,23(1):50-53(刘继华,李荻,刘培英等.时效和回归处理对7075铝合金力学及腐蚀性能的影响[J].材料热处理学报,2002,23(1):50-53)
[13]Kanno M,Araki L.Precipitation behavior of 7000 alloys duringretrogression and reaging treatment[J].Mater.Sci.Technol.,1994,10(6):599-603
[14]Park J K,Ardell A J.Microchemical analysis of precipitate freezones in 7075-A1 in the T6,T7 and RRA tempers[J].Acta.Mater.,1991,39(4):591-598
[15]Zhang K,Liu Z Y,Zheng Q C,et al.Effects of different retro-gression and reaging heat treatment on high-zinc super-high alu-minum alloy[J].J.Cent.South.Univ.,2005,36(2):188-192(张坤,刘志义,郑青春等.高Zn超高强铝合金的回归再时效处理[J].中南大学学报,2005,36(2):188-192)
[16]M O Speidel.Stress corrosion cracking of aluminum alloys[J].Metall.Trans.,1975,(6A):631-642
[17]Chen Y S,Zheng Z J,Li Q J.Effects of aging oil microstructureand properties of 7475 aluminium alloy[J].Light Alloy Fabr.Technol.,2001,29(6):40-44(程勇胜,郑子樵,李秋菊.时效制度对7475铝合金组织与性能的影响[J].轻合金加工技术,2001,29(6):40-44)
[18]Sun Z H,Liu M H,Zhang X Y.Effect of tempered conditions onthe stress corrosion cracking of AI-Zn-Mg-Cu alloy[J].J.Chin.Soc.Corros.Prot.,2006,26(4):232-236(孙志华,刘明辉,张晓云.时效制度对Al-Zn-Mg-Cu铝合金应力腐蚀敏感性的影响[J].中国腐蚀与防护学报,2006,26(4):232-236)
[19]Du P.Study on fracture toughness of 7B04 aluminium alloy[J].Nonferrous.Met.Proc.,2006,35(1):9-11(杜平.7B04铝合金断裂韧性研究[J].有色金属加工,2006,35(1):9-11)
[20]Lin J C,Liao H L,Wern-Dare Jehng.Effect of heat treatments onthe tensile strength and SCC-resistance of AA7050 in an alkalinesaline solution[J].Corros.Sci.,2006,48:3139-3156
[21]Yang J G,Ou B L.Influence of microstructure on mechanical prop-erties and stress corrosion susceptibility of 7075 Al-alloy[J].Scand.J.Metall.,2001,30:158-167
[22]Oliveira A F,Barros M C de,Cardoso K R,et al.The effect ofRRA on the strength and SCC resistance on AA7050 and AA7150aluminium alloys[J].Mater.Sci.Eng.,2004,A379:321-326
[23]Zheng Z J,Li H Y,Mo Z M.Retrogression and reaging treat-ment of a 7055 type aluminum alloy[J].J.Chin.Soc.NonferrousMet.,2001,11(5):771-776(郑子樵,李虹英,莫志民.一种7055型铝合金的RRA处理[J].中国有色金属学报,2001,11(5):771-776)
[24]Chen K H,Huang L P.Strengthening-toughening of 7xxx serieshigh strength aluminum alloys by heat treatment[J].Trans.Non-ferrous Met.Soc.Chin.,2003,13(3):484-490
[25]Zhang Z,Chen K H,Liu W H,et al.The effect of pre-precipi-tation at high temperature on the strength、plasticity and SCCproperty of high strength 7055 aluminum alloys[J].Alum.Proc.,2003,26(2):10-14(张茁,陈康华,刘红卫等.高温预析出对7055铝合金强度、塑性和应力腐蚀抗力的影响[J].铝加工,2003,26(2):10-14)
[26]Zheng Q,Chen K H,Huang L P,et al.Effect of high tempera-ture pre-precipitation and solution temperature on SCC of 7A52alloy[J].Metall.Trans.,2005,30(7):441-445(郑强,陈康华,黄兰萍等.高温预析出和固溶温度对7A52合金应力腐蚀开裂的影响[J].金属热处理,2005,30(7):441-445)
[27]Chen K H,Zhang Z,Liu H W.Effect of near solvus pre-precip-itation on the microstructure and properties of 7055 aluminum al-loy[J].J.Central South Univ.Technol.,2003,34(2):114-117
[28]Zhang Z,Chen K H,Liu H W,et al.The effect of pre-precipi-tation at high temperature on the microstructure,strength,andSCC properties of Al2Zn2Mg2Cu aluminum alloys[J].Heat Treat.Met.,2003,28(7):13-16
[29]Li S,Chen K H,Liu H W,et al.Effect of post-solution hightemperature pre-precipitation on the microstructure and propertiesof Al2Zn2Mg aluminum alloy[J].Trans.Nonferrous.Met.Soc.,Chin.,2003,13(3):585-589
[30]Sompsan D S.Translated by Hong Y X.Foreign Recent WroughtAluminum Alloys,Special Issue[M].Beijing:Metallurgy IndustryPress,1987(Sompsan D S,洪永先译.国外近代变形铝合金专集[M].北京:冶金工业出版社,l987)
[31]Jones R H,Gertsman V Y,Vetrano J S,et al.Crack-particleinteractions during intergranular stress corrosion of AA5083 asobserved by cross-section transmission electron microscopy[J].Scr.Mater.,2004,50:1355-1359
[32]Li J Q,Gao L S,Lu C Y.Effect of rare-earth conversion coatingon SCC resistance of LC4 aluminium alloy[J].Corros.Sci.Prot.Technol.,1996,8(2):139-143(李久青,高陆生,卢翠英.铝合金稀土转化膜处理对LC4合金耐SCC性能的影响[J].腐蚀科学与防护技术,1996,8(2):139-143)
[33]Li J Q,Gao L S,Lu C Y,et al.Corrosion resistance of a con-version film formed on aluminium by tetravalent cerium salt[J].Corros.Sci.Prot.Technol.,1996,8(4):271-275(李久青,高陆生,卢翠英等.铝合金表面四价铈盐转化膜及其耐蚀性[J].腐蚀科学与防护技术.1996,8(4):271-275)
[34]Yu X W,Cao C N,Yao Z M,et al.Corrosion behavior of rareearth metal(REM)conversion coatings on aluminum alloy LY12[J].Mater.Sci.Eng.,2000,A284:56-63
[35]Yue T M,Yan L J,Chan C P.Stress corrosion cracking behaviorof Nd:YAG laser-treated aluminum alloy 7075[J].Appl.Surf.Sci.,2006,252:5026-5034
[36]Liu J H,Li D,Guo B A,et a1.Slow strain rate tension test ofhigh-strength aluminum alloy 7075[J].Mater.Sci.Technol.,2001,1:37-40
[37]Senkov O N,Miracle D B.Low temperature mechanical proper-ties of scandium modified Al-Zn-Mg-Cu alloys[J].Mater.Sci.Forum.,2002,396-402:1127-1129
[38]Rokhlin L L,Dobatkina T V,Bochvar N R,et al.Investigationof phase equilibria in alloys of the Al-Zn-Mg-Cu-Zr-Sc system[J].J.Alloys Comp.,2004,367(1-2):10-16
[39]Dai X Y,Xia C Q,Liu C B.Effect of trace Sc on microstruc-tures and properties of Al-Zn-Mg-Cu-Zr based alloys[J].Min.Metall.Eng.,2004,24(3):59-62(戴晓元,夏长清,刘昌斌.微量钪对AI-Zn-Mg-Cu-Zr铝合金组织与性能的影响[J].矿冶工程,2004,24(3):59-62)
[40]Sameljuk A V,Neikov O D,Yu V Milman,et al.Corrosion be-haviour of powder metallurgical and cast Al-Zn-Mg base alloys[J].Corros.Sci.,2004,46:147-158
[41]Wu Y L,Floes F H.Effects of microalloying with Sc,Ni and Ceon behavior of ingot alumimum alloy process[J].Lightweight.Met.Mater.Ⅱ,1997,9(2):73-81
[42]Winkler S L,Flower H M.Stress corrosion cracking of cast 7xxxaluminium fibre reinforced composites[J].Corros.Sci.,2004,46:903-915
[43]Chang C H,Lee S L,Lin J C,et al.Effect of Ag content andheat treatment on the stress corrosion cracking of Al-4.6Cu-0.3Mgalloy[J].Mater.Chem.Phys.,2005,91:454-462
[44]Chen D Q,Zheng Z J,Li S C.Mechanism of stress aging in Al-Cu(-Mg-Ag)alloys[J].Trans.Nonferrous Met.Soc.Chin.,2004,14(4):779-784
[45]Zuo J Y.Stress Corrosion Cracking[M].Xi′An:Xi′An JiaotongUniversity Press,1989(左景伊.应力腐蚀破裂[M].西安:西安交通大学出版社,1989)
[46]Tsai T C,Chuang T H.Technical note:relationship between elec-trical conductivity and stress corrosion cracking susceptibility ofA17050 and A17475 alloys[J].Corrosion,1996,52(6):414-416
[47]Holroyd NJ H,Hardie D.Factors controlling crack velocity in 7000series aluminium alloys during fatigue in an aggressive environ-ment[J].Corros.Sci.,1983,23(6):527-531
[48]Gingell A D B,King J E.The effect of frequency and microstruc-ture on corrosion fatigue crack propagation in high strength alu-minium alloys[J].Acta Mater.,1997,45(9):3855-3870
[49]Liu J H,Zhu G W.Effect of electrode polarization on SCC of a-luminium alloy[J].Met.Prot,2005,38(3):25-27(刘继华,朱国伟.电极极化对铝合金应力腐蚀断裂敏感性的影响[J].材料保护,2005,38(3):25-27)
[50]Najjar D,Magnin T,Warner TJ.Influence of critical surface defectsand localized competition between anodic dissolution and hydro-gen effects during stress corrosion cracking of 7050 aluminum al-loy[J].Mater.Sci.Eng.,1997,A238:293-302
[51]Haruna T,Kouno T,Fujimoto S.Electrochemical conditions forenvironment-assisted cracking of 6061 Al alloy[J].Corros.Sci.,2005,47:2441-2449
[52]Liu X D,Frankel G S,Zoofan B,et al.Effect of applied tensilestress on intergranular corrosion of AA2024-T3[J].Corros.Sci.,2004,46(2):405-425
[53]McNaughtan D,Worsfold M,Robinson MJ.Corrosion product forcemeasurements in the study of exfoliation and stress corrosioncracking in high strength aluminium alloys[J].Corros.Sci.,2003,45(10):2377-2389
[54]Robinson M J.The role of wedging stresses in the exfoliation cor-rosion of high strength aluminium alloys[J].Corros.Sci.,1983,23(8):887-899
[55]Shi H J,Ruan C Y,Li X D.Study on the initiation stage of stresscorrosion of an aluminum alloy using the subjective speckle tech-nique[J].Mater.Sci.Eng.,2006,A419:218-224
[56]Toh S L,Quan C,Woo K C,et al.Whole field surface rough-ness measurement by laser speckle correlation technique[J].Laser Technol,2001,33(6):427-434
[57]Song Y Z,Kulenovic R,Groll M,et al.Effects of speckle dis-placement on speckle interferometry for measurement of phase ob-ject[J].Opt.Commun.,1997,139(1):24-30
[58]Kolenovic E,Osten W,Juptner W,et al.Non-linear specklephase changes in the image plane caused by out of plane displace-ment[J].Opt.Commun.,1999,171(6):333-344
[59]Hinsch K D,Fricke-Begemann T,Gulker G,et al.Speckle cor-relation for the analysis of random processes at rough surfaces[J].Lasers Eng.,2000,33(2):87-1057

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