设计了一类AlMgZnSnPbCuMnNi系列等摩尔比合金,采用大气造渣保护熔炼方法制备了合金铸锭,铸锭尺寸为Φ10×60mm。采用电化学工作站测定了所制备的等摩尔比合金的电化学性能,采用XRD和SEM分析了合金微观结构。研究表明,从AlMg合金到AlMgZnSnPbCuMnNi合金,随组元数的增加,高熵合金的自腐蚀电位大致呈现先下降后上升的趋势,而自腐蚀电流密度呈现先上升后下降的趋势。在AlMgZnSnPbCuMnNi高熵合金中,尽管AlMgZn的含量远小于传统的牺牲阳极材料,但自腐蚀电位仍低达-1.33V,自腐蚀电流密度也很低,为3.0×10-5A/cm2,均低于目前使用的铝合金与锌合金牺牲阳极材料,为进一步研究开发阳极材料提供了数据支持。
A series of AlMgZnSnPbCuMnNi alloys with Φ10×60mm rods have been prepared by flux melting in the atmosphere.The as-prepared alloys are investigated using electrochemical performance testing,X-ray diffractometry and scanning electron microscopy.With increasing the number of constituent elements from AlMg to AlMgZnSnPbCuMnNi,the free corrosion potential of the alloy decreases firstly and then increases and the free corrosion current density increases firstly and then decreases.The high entropy AlMgZnSnPbCuMnNi alloy has a lower free corrosion potential than the traditional anode material in spite of the contents of Al,Mg and Zn elements of the high entropy alloy are much lower than those of the traditional anode material.The free corrosion potential of the AlMgZnSnPbCuMnNi alloy is lowed to-1.33V,and the free corrosion current density is also lowed to the order of 10-5 magnitude.
参考文献
| [1] | 杜经邦;杨智超;叶均蔚 .块状多元高功能合金之特性[J].工业材料(台湾),2005,224:80. |
| [2] | 叶均蔚;陈瑞凯;刘树均 .高熵合金的发展概况[J].工业材料(台湾),2005,224:71. |
| [3] | Yeh J W;Chen S k;Lin S J et al.Nanostructured high-entropy alloys with multi-principal elements-novel alloy design concepts and outcomes[J].Advances in Engineering Materials,2004,6:299. |
| [4] | X.F. Wang;Y. Zhang;Y. Qiao .Novel microstructure and properties of multicomponent CoCrCuFeNiTi_x alloys[J].Intermetallics,2007(3):357-362. |
| [5] | Y.J. Zhou;Y. Zhang;Y.L. Wang .Microstructure and compressive properties of multicomponent Al_x(TiVCrMnFeCoNiCu)_(100-x) high-entropy alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(0):260-265. |
| [6] | 刘源,李言祥,陈祥,陈敏.多主元高熵合金研究进展[J].材料导报,2006(04):4-6,14. |
| [7] | Y. Y. Chen;T. Duva;U. D. Hung;J.W.Yeh,H.C.Shih .Microstructure and electrochemical properties of high entropy alloys-a comparison with type-304 stainless steel[J].Corrosion Science,2005,47:2257. |
| [8] | Yu-Jui Hsu;Wen-Chi Chiang;Jiann-Kuo Wu .Corrosion behavior of FeCoNiCrCux high-entropy alloys in 3. 5% sodium chloride solution[J].Materials Chemistry and Physics,2005,92:112. |
| [9] | Y.L. Chou;J.W. Yeh;H.C. Shih .The effect of molybdenum on the corrosion behaviour of the high-entropy alloys Co0.5 CrFeNi1.5Ti0.5 Mox in aqueous environment[J].Corrosion Science,2010,52:2571. |
| [10] | Qi G T;Guo Z H;Lin H T .Effect of Element Sn on Microstructure and Electrochemistry Performance of Aluminum Alloys for Sacrificial Anode[J].China Offshore Oil and Gas,2000,12(06):25. |
| [11] | H.A. SHAYEB;F. M. ABD EL WAHAB;S. ZEIN EL ABEDIN .Effect of gallium ions on the electrochemical behaviour of Al, Al-Sn, Al-Zn and Al-Zn-Sn alloys in chloride solutions[J].Journal of Applied Electrochemistry,1999,29:473. |
| [12] | 屈钧娥,齐公台.铝合金牺牲阳极材料研究现状[J].材料导报,2001(11):24-26. |
| [13] | S.M.A. Shibli;S.R. Archana;Muhamed Ashraf;S;R;Archana;P;Muhamed Ashraf .Development Of Nano Cerium Oxide Incorporated Aluminium Alloy Sacrificial Anode For Marine Applications[J].Corrosion Science: The Journal on Environmental Degradation of Materials and its Control,2008(8):2232-2238. |
| [14] | Guo W .Effeetrochemical performance research of Al-Zn-Bi alloy sacrificial anodes[D].洛阳:河南科技大学,2008. |
| [15] | 符岩,翟秀静,王杰,李涛,柳忠宝,张晓顺.添加稀土元素的锌基合金牺牲阳极的研究[J].稀土,2005(01):49-52. |
| [16] | Cong S H .一种耐蚀锌基铝镁稀土合金涂料及其制备方法[P].Chin Pat,10019093.8,2006. |
| [17] | 巢国辉,黎文献,余琨,丁荣辉.镁基牺牲阳极腐蚀行为研究[J].腐蚀科学与防护技术,2006(02):98-100. |
| [18] | Duan H Q;Wang L S;Cai Q Z .Effect of Earth(RE) on Corrosive Resistance of AZ91 Magnesium Alloy[J].China Mechanical Engineering,2003,14(20):1789. |
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