开发了一种应用于AZ31镁合金的环保型阳极氧化工艺,讨论了电解液成分、电参数、控制方式、封孔工艺和溶液温度等对阳极氧化的成膜过程以及膜层性能的影响.结果表明:选用KOH、Na2B4O7、Na3PO4及成膜添加剂组成的环保型电解液,控制适当的反应参数,能在镁合金AZ31上形成耐蚀性能高、膜层致密的阳极氧化膜,其性能与电解液的组分有较大的关系,最后的封孔处理能提高阳极氧化膜的耐蚀性.
参考文献
| [1] | Raymond F;Decker .The renaissance of magnesium[J].Current Advances in Materials and Processes,1998,154(03):31-33. |
| [2] | Froes F H;Eliezer D .The Science,Technology and application of magnesium[J].Minerals,Metals & Materials Society,1998,5(09):30-34. |
| [3] | Makar G L;Kruger J .Corrosion of magnesium[J].International Materials Reviews,1993,38(03):138-153. |
| [4] | Amy L. Rudd;Carmel B. Breslin;Florian Mansfeld .The corrosion protection afforded by rare earth conversion coatings applied to magnesium[J].Corrosion Science,2000(2):275-288. |
| [5] | 伯克斯·N;迈耶 G H.高温氧化导论[M].北京:冶金工业出版社,1989 |
| [6] | 吴纯素.化学转化膜[M].北京:化学工业出版社,1989 |
| [7] | Zozulin A J .Anodizing coating for magnesium Mg-Al alloys[J].Metal Finishing,1994,92:39-44. |
| [8] | Zhang Y J;Yan C W;Wang F H et al.Study on the environmentally friendly anodizing of AZ91D magnesium alloy[J].Surface and Coatings Technology,2002,161:36-43. |
| [9] | Yahalom J .Experimental evaluation of some electrolytic breakdown hypothesis[J].Electrochimica Acta,1970,15(09):603-607. |
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