Influence of aging treatment on corrosion behavior and mechanism of Mg–Y alloys 被引量：2

时效处理对Mg–Y合金腐蚀行为和腐蚀机理的影响（英文）

下载PDF

导出

摘要 This paper studied the influence of aging treatment on the corrosion behavior and mechanism of Mg-Y alloys with different Y content through corrosion mass loss test, electrochemical test and corrosion morphologies observation. Results show that the peak-aging times of Mg-（0.25, 2.5, 5, 8 and 15） Y alloys at 250 ℃ were 4, 6, 10, 12 and 16 h. The aging treatment reduced the corrosion resistance of Mg-Y alloys, and the corrosion resistance of Mg-Y alloys became worse with increasing of the aging time. The change magnitude of the open circuit potentials for Mg-（0.25, 2.5）Y alloys was greater than that of Mg-（5, 8 and 15）-Y alloys. The polarization curves of Mg （0.25, 2.5, 5, 8 and 15） Y alloys had the similar shape after aging treatment, and the slopes of the anodic branch were greater than those of the cathodic branches. After aging treatment, the corrosion modes of Mg-0.25Y and Mg-（2.5, 5, 8 and 15） Y alloys were uniform corrosion and pitting corrosion with small local deep corrosion. 本文采用腐蚀失重试验、电化学测试和腐蚀形貌观察等研究方式研究了时效处理对不同Y含量Mg–Y合金的腐蚀行为和腐蚀机理的影响机制。研究结果表明:Mg–(0.25,2.5,5,8,15)Y合金在250°C时的峰时效时间分别为4、6、10、12和16 h;时效处理降低了Mg–Y合金的耐腐蚀性能,并且对于同一种Mg–Y合金的耐蚀性能随着失效时间的延长而逐渐降低;Mg–(0.25,2.5)Y合金的开路电位的变化幅度远大于Mg–(5,8,15)Y合金的开路电位的变化幅度;时效处理后,Mg–(0.25,2.5,5,8,15)Y这5种合金有着相类似的极化曲线形状,并且阳极曲线的斜率均大于阴极曲线的斜率;时效处理后,Mg–0.25Y合金的腐蚀机理为均匀腐蚀,而Mg–(2.5,5,8,15)Y合金的腐蚀机理为局部腐蚀较深的点蚀。

作者徐宏张新蒋三生任霁萍高翔宇

机构地区 School of Materials Science and Engineering Institute of Thermal Power Generation Technology State Key Lab for Fabrication & Processing of Non-ferrous Metals School of Mechanical and Electronic Engineering Department of Automotive Engineering

出处《Journal of Central South University》 SCIE EI CAS CSCD 2018年第5期987-1002,共16页 中南大学学报（英文版）

基金 Projects(2011BAE22B01,2011BAE22B06)supported by the National Key Technology R&D Program,China

关键词 Mg-Y alloy aging treatment electrochemical corrosion resistance corrosion morphology Mg-Y合金时效处理电化学腐蚀腐蚀形貌

分类号 TG146.22 [一般工业技术—材料科学与工程] TG166.4 [金属学及工艺—金属材料]

引文网络
相关文献

参考文献3

1Andrej Atrens,Guang-Ling Song,Fuyong Cao,Zhiming Shi,Patrick K.Bowen.Advances in Mg corrosion and research suggestions[J].Journal of Magnesium and Alloys,2013,1(3):177-200. 被引量：29
2徐宏,张新,张奎,石阳,任霁萍.Effect of extrusion on corrosion behavior and corrosion mechanism of Mg-Y alloy[J].Journal of Rare Earths,2016,34(3):315-327. 被引量：9
3Xin Zhang a,b,c,Kui Zhang a,Xia Deng a,Hongwei Li b,c,Yongjun Li a,Minglong Ma a,Ning Li b,c,Yanlong Wang b,c a State Key Laboratory for Fabrication and Processing of Nonferrous Metals,Beijing General Research Institute for Nonferrous Metals,Beijing 100088,China b Beijing Engineering Research Center for Advanced Manufacturing and Evaluation of Special Vehicle Parts,Beijing 100072,China c Center of Technology,Beijing North Vehicle Group Corporation,Beijing 100072,China.Corrosion behavior of Mg-Y alloy in NaCl aqueous solution[J].Progress in Natural Science:Materials International,2012,22(2):169-174. 被引量：8

二级参考文献17

1X.Cao;M.Jahazi;J.P.Immarigeon;W.Wallace.查看详情[J],Journal of Materials Processing Technology2006188. 被引量：1
2A,H.Cotrell. Edward Arnold Publications[M].London,1975.156. 被引量：1
3Xing-Wu Guo;Jian-Wei Chang;Shang-Ming He;Wen-Jiang Ding Xishu Wang.查看详情[J],Elcetrochimica Acta20072570. 被引量：1
4M.X.Zhang;P.M.Kelly.查看详情[J],Scripta Materialia2003379. 被引量：1
5Ming Liu;Patrik Schmutz;Peter J.Uggowitzer;Guangling Song;Andrej Atrens.查看详情[J],Corrosion Science2010(52):3687. 被引量：1
6Ryan C.Wolfe;Barbara A.Shaw.查看详情[J],Journal of Alloys and Compounds2007157. 被引量：1
7Xin Zhang;Kui Zhang;Xinggang Li;Cong Wang Hongwei Li Changshun Wang Xia Deng.查看详情[J],Progress in Natural Science:Materials International,2011314. 被引量：1
8R;W.Char.查看详情[A],North HollandNew York1996. 被引量：1
9Y.W.Song;D.Y.Shan;R.S.Chen;E.H.Han.查看详情[J],Corrosion Science20091087. 被引量：1
10A Pardo;M.C.Merino;A E.Coy;R.Arrabal F.Viejo E.Matykina.查看详情[J],Corrosion Science2008823. 被引量：1

共引文献42

1张新,李永军,张奎,王长顺,李宏伟,马鸣龙,张宝东.Corrosion and electrochemical behavior of Mg-Y alloys in 3.5% NaCl solution[J].Transactions of Nonferrous Metals Society of China,2013,23(5):1226-1236. 被引量：6
2Jinghua Jiang,Qiuyuan Xie,Mingshan Qiang,Aibin Ma,Evans-Kwesi Taylor,Yuhua Li,Dan Song,Jianqing Chen.Stress corrosion cracking behaviors of RE-containing ME21 magnesium alloy processed by equal-channel angular pressing[J].Journal of Rare Earths,2019,37(1):88-94. 被引量：1
3邓霞,张奎,张新,刘长华,王长顺,胡锦川,黄辉,李志强.时效处理对Mg-15Y合金腐蚀性能的影响[J].特种铸造及有色合金,2014,34(8):882-886. 被引量：2
4张庆芳,王明,邵忠财.植酸改善镁合金锌系磷化膜耐蚀性的研究[J].电镀与环保,2014,34(5):23-25. 被引量：4
5林卫丽.高强韧镁-稀土系镁合金研究现状及展望[J].热加工工艺,2015,44(4):12-15. 被引量：11
6崔泽琴,施海霞,王文先,许并社.Laser surface melting AZ31B magnesium alloy with liquid nitrogen-assisted cooling[J].Transactions of Nonferrous Metals Society of China,2015,25(5):1446-1453. 被引量：7
7王新印,周亚茹,张鉴清,曹发和.镁及其合金腐蚀析氢的研究现状[J].装备环境工程,2015,12(4):129-136. 被引量：14
8赵丁藏,张丁非,孙静,余大亮,潘复生.AZ31镁合金钕基转化膜工艺与耐蚀性能研究[J].功能材料,2015,46(19):19110-19114. 被引量：1
9冯晓伟,戚文军,黎小辉,李志成.生物医用挤压态Mg-Zn-Gd镁合金的组织与耐电化学腐蚀性能[J].中国腐蚀与防护学报,2016,36(3):267-272. 被引量：7
10徐宏,WU Zhiquan,WANG Xiaoru,张新,REN Jiping,SHI Yang,WANG Zepu,WANG Liwei,LIU Changhua.Corrosion Mechanism and Corrosion Model of Mg-Y Alloy in NaCl Solution[J].Journal of Wuhan University of Technology(Materials Science),2016,31(5):1048-1062. 被引量：3

同被引文献8

1李兆智,杨亚琴,张治民.Transformation mechanism of lamellar microstructure of AZ80 wrought Mg alloy during warm deformation[J].中国有色金属学会会刊：英文版,2008,18(A01):156-159. 被引量：1
2S. Spigarelli,M. El Mehtedi,M. Regev,E. Gariboldi,N. Lecis.High Temperature Creep and Superplasticity in a Mg-Zn-Zr Alloy[J].Journal of Materials Science & Technology,2012,28(5):407-413. 被引量：3
3崔洪芝,孟兆涛,肖成柱,孙金全,王翠香.Microstructure and properties of plasma remelted AZ91D magnesium alloy[J].Transactions of Nonferrous Metals Society of China,2015,25(1):30-35. 被引量：5
4毕广利,姜静,张帆,房大庆,李元东,马颖,郝远.Microstructure evolution and corrosion properties of Mg-Dy-Zn alloy during cooling after solution treatment[J].Journal of Rare Earths,2016,34(9):931-937. 被引量：11
5Zilong Zhao,Xuegang Xing,Jinyu Ma,Liping Bian,Wei Liang,Yide Wang.Effect of addition of Al-Si eutectic alloy on microstructure and mechanical properties of Mg-12wt%Li alloy[J].Journal of Materials Science & Technology,2018,34(9):1564-1569. 被引量：7
6Wen Zhang,Lili Tan,Dingrui Ni,Junxiu Chen,Ying-Chao Zhao,Long Liu,Cijun Shuai,Ke Yang,Andrej Atrens,Ming-Chun Zhao.Effect of grain refinement and crystallographic texture produced by friction stir processing on the biodegradation behavior of a Mg-Nd-Zn alloy[J].Journal of Materials Science & Technology,2019,35(5):777-783. 被引量：6
7Woo Jin Lee,Jisoo Kim,Hyung Wook Park.Improved corrosion resistance of Mg alloy AZ31B induced by selective evaporation of Mg using large pulsed electron beam irradiation[J].Journal of Materials Science & Technology,2019,35(5):891-901. 被引量：4
8Qun Luo,Yanlin Guo,Bin Liu,Yujun Feng,Jieyu Zhang,Qian Li,Kuochih Chou.Thermodynamics and kinetics of phase transformation in rare earth–magnesium alloys:A critical review[J].Journal of Materials Science & Technology,2020,44(9):171-190. 被引量：35

引证文献2

1ZHANG Dong-dong,LIU Chu-ming,WAN Ying-chun,JIANG Shu-nong,ZENG Gang.Microstructure and anisotropy of mechanical properties in ring rolled AZ80-Ag alloy[J].Journal of Central South University,2021,28(5):1316-1323. 被引量：4
2姜静,陈思琦,顾家睿,毕广利,黄健康,李元东,陈体军,马颖.微束等离子体重熔Mg-12Dy-1.1Ni合金的显微组织和腐蚀性能[J].Journal of Central South University,2023,30(1):20-34. 被引量：2

二级引证文献6

1李梦媛,刘楚明,张冬冬,万迎春,蒋树农,陈志永.T5热处理对Mg-Gd-Y-Zr合金筒形件拉压不对称性的影响[J].锻压技术,2022,47(12):193-199. 被引量：2
2孙忠玉,赵越顺.分步锻压对汽车用AZ80镁合金耐蚀及耐磨性能的影响[J].锻压技术,2023,48(1):23-28. 被引量：3
3唐建伟,陈良,鲍意浩,李志刚,阙标华.固溶时效处理Mg-Zn-Al-Sn-Mn合金的微观组织演变及腐蚀行为研究[J].Journal of Central South University,2023,30(10):3197-3210. 被引量：3
4肖罡,郭鹏程,王文韫,项忠珂,杨钦文.挤压AM80-(0.2Sr)镁合金准静态载荷拉-压变形力学响应行为及其不对称性研究[J].塑性工程学报,2024,31(6):149-157. 被引量：1
5孟倩,石鹏飞,耿宝光,刘洋洋,赵瑞峰.液态模锻浇注温度对AZ80机械壳体力学性能和抗氧化性能的影响[J].热加工工艺,2024,53(11):125-128.
6WANG Bo,LI Jia-wei,XIE Zhi-hui,LIU Kang,XU Tao,YU Gang.Formation mechanism of electroless plating nickel-based composite coating on highly active rare earth magnesium alloys and its corrosion resistance and adhesion performance[J].Journal of Central South University,2024,31(10):3517-3531.

1白林越,江克斌,高磊,陈俞龙.残余应力对焊接结构腐蚀行为的影响规律研究[J].电焊机,2018,48(4):85-90. 被引量：4
2李劲风,陈永来,张绪虎,姚勇,周华.Cu、Li含量及比例对Al-(3.2～3.9)Cu-(0.8～1.4)Li-X合金T8时效析出行为的影响[J].铝加工,2018,41(2):35-40. 被引量：2
3王星星,李帅,彭进,孙国元.基于镀锡银钎料钎焊304不锈钢接头的腐蚀行为[J].焊接学报,2018,39(4):63-66. 被引量：8
4国内消息[J].上海化工,1974,0(S1):54-56.
5化工名词解释[J].应用化工,1982,27(2):69-69.
6杨维驿.钛在氯碱工业中的应用及存在的问题[J].稀有金属材料与工程,1983,17(5):59-63.
7李伟钰,王洪博,李明哲,贾元东,程孟,胡松青.气相缓蚀剂在原油储罐气相区的防腐蚀性能[J].腐蚀与防护,2018,39(3):189-193. 被引量：2
8徐靖涛,高思田,黄鹭,李琪,李东升,汪雅丽.基于电化学腐蚀法的钨探针制备装置研究[J].计量学报,2018,39(3):294-298. 被引量：4
9张绍良,杜荣林,曾蔚然,许国平.连续重整装置板式换热器结垢原因分析及对策[J].炼油技术与工程,2018,48(3):46-50. 被引量：8
10魏宝明,郝凌,杨忠英.用均匀腐蚀的方法研究不锈钢孔蚀的稳定发展[J].南京工业大学学报（自然科学版）,1986,21(2):39-45.

Journal of Central South University

2018年第5期

浏览历史

内容加载中请稍等...