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挤压镁合金AM60的腐蚀疲劳 被引量:14

Corrosion fatigue of as-extruded AM60 magnesium alloy
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摘要 研究了加载频率、溶液pH值、氯离子浓度和氟化物转化膜等对挤压镁合金AM60疲劳寿命的影响,讨论了疲劳机理及AlMn相的作用.结果表明:在空气中10.Hz以下,疲劳寿命与频率有一定的关系;而在10 Hz以上,疲劳寿命与频率无关.AM60在中性溶液中疲劳寿命最短,在碱性溶液中疲劳寿命最长.氯离子能明显地降低疲劳寿命,含氟转化膜提高腐蚀疲劳寿命的作用不明显.断口分析表明,挤压镁合金AM60疲劳裂纹的形成与AlMn相粒子有关,在空气中,疲劳裂纹源为AlMn相粒子;而在溶液介质中,腐蚀疲劳裂纹萌生于AlMn相粒子周围的点蚀坑. The effect of loading frequencies, pH values, chlorine ions and the fluorine-containing conversion film on fatigue life of as-extruded magnesium alloy AM60 was studied using a tensile-tension fatigue machine. The fractographic morphologies were observed by SEM, and the mechanisms of fatigue and the roles of AlMn particles were mainly discussed. The results showed that the fatigue life in ambient air has some relationship to the loading frequency when the frequency is lower than 10 Hz, and little relationship with loading frequency when greater than 10 Hz. The fatigue life decreased in neutral solution, and increased in base solution with pH12. The conversion film containing fluorine can hardly improve the fatigue life. The fractography showed that fatigue crack initiation was related to AlMn particle. Fatigue cracks emanated at AlMn particles in air, while in aqueous solutions it initiated the corrosion pits bordering upon the AlMn particles.
作者 曾荣昌 韩恩厚 柯伟 刘路 徐永波
机构地区 中国科学院金属研究所国家腐蚀与防护重点实验室 中国科学院金属研究所
出处 《材料研究学报》 EI CAS CSCD 北大核心 2005年第1期1-7,共7页 Chinese Journal of Materials Research
基金 国家八六三计划新材料领域2001AA331050资助项目~~
关键词 材料失效与保护 挤压镁合金 腐蚀疲劳 AlMn相 含氟转化膜 Corrosion Corrosion fatigue Crack initiation Extrusion Failure analysis Fractography Morphology Thin films
分类号 TG146 [金属学及工艺—金属材料] TG174 [金属学及工艺—金属表面处理]
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  • 1LIU Zheng(刘正), WANG Yue(王越), Friendrich Klein, Application mad Developing Tendency of Magnesium Die-casting Alloys in Automobile Industry(压铸镁合金在汽车工业中的应用和发展趋势),Special Casting and Nonferrous Alloys(特种铸造及有色金属),20(5),55(1999).
  • 2A.Ben-Artzy, A.Shtechman, N.Ben-Ari, D.Dayan, Plastic deformation of wrought magnesium alloys AZ31,ZK60, in: E. Aghion and D. Eliezer, eds. Proceedings of the Second Israeli International Conference on Magnesium Science & Technology, (Beer-Sheva, Design & Production Kavim Ltd., 2000) p.151.
  • 3Froes F H. JOM, 11, 54(1998).
  • 4Zeng Rongchang(曾荣昌),Ke Wei(柯 伟),Xu Yongbo(徐永波),Han Enhou(韩恩厚),Zhu Ziyong(朱自勇).Recent Development and Application of Magnesium Alloys(镁合金的最新发展及应用前景).Acta Metall.Sinica(金属学报),37(7),673(2001).
  • 5M.F.Horstemeyer, N.Yang, K.Gall, D.Mcdowell, J.Fan, P.Gullett, High cycle faigue mechanisms in a cast AM60B magnesium alloy, Fatigue Fract Engng Mater Struct, 25, 1045(2002).
  • 6M.Papakyriacou, H.Mayer, U.Fuchs, S.E.Stanzl-Tschegg, R.P.Wei, Influence of atmospheric moisture on slow fatigue crack growth at ultrasonic frequency in aluminium and magnesium alloys, Fatigue Fract Engng Mater Struct, 25, 795(2002).
  • 7U.Fuchs, Hj.Liowsky, H.Mayer, M.Papakyriacou, A.Stich, S-Tschegg, B.Zettl, Slow fatigue crack growth in aluminium and magnesium cast alloys in ambient air and in a vacuum, Mat. -wiss. u. Werkstolftech. 33,15-23(2002).
  • 8U.Fuchs, Hj.Liowsky, H.Mayer, M.Papakyriacou, A. Stich, S-Tschegg und B. Zettl, Influence of casting defects on the endurance limit of aluminium and magnesium cast alloys, Mat. -wiss. u. Werkstofftech. 33,117-127(2002).
  • 9R.F.Brown, Magnesium wrought and fabricated products-yesterday, today and tomorrow [A]. H.I.Kaplan.Magnesium Technology 2002. (Pennsylvania, TMS, 2002) p.155.
  • 10R.V.Allen, D.R.East, T.J.Johnson, W.E.Borbidge, D.Liang, Magnesium alloy sheet produced by twin roll casting. In: J. Hryn, ed. Magnesium Technology 2001, (Pennsylvania, TMS, 2001) p.75.

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材料研究学报
2005年 第1期

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