在含Na2SiO38g/L、NaOH 2g/L、Na2WO42g/L、Na2EDTA 2g/L的电解液和正/负向电压取480/130V的条件下,通过改变C3H8O3的含量,对ZAlSi12Cu2Mg1进行微弧氧化处理。研究结果发现,添加C3H8O3可明显地细化电解液中的胶粒,改善微弧氧化膜的致密性和平整性,增加膜层厚度,提高膜层硬度。当C3H8O3的含量由0mL/L增加到10mL/L时,胶粒的平均粒径从10530.6nm几乎线性减小到2615.8nm,膜层氧化物颗粒尺寸变小,致密层所占比例增加,膜层厚度从63μm增加到156μm,膜层硬度提高到894HV;而含量超过10mL/L时,临界起弧正向电压升高至408V。电解液中加入C3H8O3,膜层中除了莫来石相,还出现了α-Al2O3、γ-Al2O3、WO3和SiO2相。
In the present study, the micro-arc oxidation coatings of ZA1Si12Cu2Mg1 are obtained at 480V for- ward voltage , 130V reverse voltage and a electrolyte containing 8g/L Na2SiO3, 2g/L NaOH ,2g/L Na2WO4 and 2g/L Na2EDTA. The influences of content of Glycerin on the arc starting voltage, thicknesses and microhard- ness of coatings, phase distribution and morphology of coatings were analyzed respectively. The results show that less rough and higher microhardness coatings are formed from an electrolyte with addition of C3 H8O3. With the content of C3 H8 O3 ascending from 0 to 10mL/L, the mean diameter of colloidal particle descends from 10530.6 to 2615.8nm,the thickness of coatings rises gradually from 63 to 156μm, the dimension of the ceramic grains and the proportion of compact layer increase, and the microhardness of coatings reach HV894. But as the content of C3H8O3 excess 10mL/L, arc starting voltage ascends 408V. The result indicates by XRD that the coatings formed from an electrolyte with addition of C3 H8 O3 were composed of mullite, α-Al2 O3 ,γ-Al2 O3, WO3 and SiO2.
参考文献
| [1] | Chigrinova N M .Use of ceramic coatings as therma bar- riers in heat cycling[J].Journal of Engineering Physics and thermophysics,2001,74(06):1583-1592. |
| [2] | Chigrinova N M;Chigrinova V E;Kukharev A A .For- microarc oxidation and their operation in thermally-stressed assemblies[J].Powder Metallurgy and Metal ceramics,2001,40(5-6):213-217. |
| [3] | 刘静安;谢水生.铝合金材料的应用与技术开发[M].北京:冶金工业出版社,2004 |
| [4] | Verdier S;Boinet M;Maximovitch S et al.Formation,structure and composition of anodic films on AM60 mag- nesium alloy obtained by DC plasma anodizing[J].Corro sion Science,2005,47:1429-1444. |
| [5] | Xue Wenbin;Wang Chao;Tian Hua.Corrosion be- haviors and galvanic studies of microacr oxidation films on A1-Zn-Mg-Cu alloy[J].Surface and Coatings Technology,2006(01):1-7. |
| [6] | Ping Huang;Kewei Xu;Yong Han .Formation mechan ism of biomedical apatite coatings on porous titania layer[J].Journal of Materials Science. Materials in Medicine,2007(3):457-463. |
| [7] | 薛文斌,蒋兴莉,杨卓,张盈,李夕金,田华.6061铝合金微弧氧化陶瓷膜的生长动力学及性能分析[J].功能材料,2008(04):603-606,610. |
| [8] | A. I. Slonova;O. P. Terleeva .Morphology, Structure, and Phase Composition of Microplasma Coatings Formed on Al-Cu-Mg Alloy[J].Protection of Metals,2008(1):65-75. |
| [9] | I. V. Lukiyanchuk;V. S. Rudnev;L. M. Tyrina .Formation, Structure, Composition, and Catalytic Properties of Ni-, Cu-, Mn-, Fe-,and Co-containing Films on Aluminum[J].Russian journal of applied chemistry,2009(6):1000-1007. |
| [10] | Structure, morphology and fibroblasts adhesion of surface-porous titanium via anodic oxidation[J].Journal of Materials Science. Materials in Medicine,2010(1):259. |
| [11] | Dan Min;Tong Honghui;Shen Liru et al.Effects of al loying element Mg on micro are oxidation ceramic coat ings formed on three aluminum alloy substrates[J].Journal of Functional Materials,2011,42(10):1776-1779. |
| [12] | 刘彩文,刘向东,乌迪,吕凯.电解液组成对ZAISi12Cu2Mg1微弧氧化陶瓷膜的影响[J].中国有色金属学报,2009(03):459-463. |
| [13] | Li Yuhai;Zhao Yan;Li Baoyi et al.Wear resistance of microarc oxidation coatings on 2A12 alloy in different e- lectrolyte[J].Journal of Functional Materials,2011,42(z2):354-356. |
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