FORMATION MECHANISM OF POROUS STRUCTURE ON 316L STAINLESS STEEL BY ANODIZATION

机译：阳极氧化对316L不锈钢多孔结构的形成机理

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The micro-pores with size of 0.2 to 1.8 μm, which randomly distribute in a 316L stainless steel substrate, were fabricated by the transfer of the porous structure of anodic porous alumina. The mask anodic porous alumina was directly prepared by anodizing of aluminum film, which was deposited on 316L substrate by DC magnetron sputtering. The transfer of the porous structure of anodic alumina into the 316L substrate could be achieved without the additional through-hole treatment to the barrier layer. The localized priority dissolution on porous alumina is observed during the anodizing. And this process is considered to lead to the micro-pores formation on 316L substrate. In addition, the effect of anodizing time on the pores size and number on 316L substrate also was discussed.

机译：通过转移阳极多孔氧化铝的多孔结构，制造了尺寸为0.2至1.8μm的微孔，它们随机分布在316L不锈钢基板中。掩膜阳极多孔氧化铝是通过对铝膜进行阳极氧化而直接制备的，该铝膜通过DC磁控溅射沉积在316L基板上。无需对阻挡层进行额外的通孔处理，就可以将阳极氧化铝的多孔结构转移到316L基板中。在阳极氧化过程中观察到局部优先溶解在多孔氧化铝上。并且认为该过程导致在316L基底上的微孔形成。此外，还讨论了阳极氧化时间对316L基材上的孔尺寸和数量的影响。

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《第五届先进材料与加工国际会议(Fifth International Conference on Advanced Materials and Processing ICAMP-5)论文集》|2009年|1047-1052|共6页
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YUJIANG WANG; XINXIN MA; GUANGZE TANG;
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Anodization; porous; 316L stainless steel; sputtered aluminum;

机译：阳极氧化;多孔; 316L不锈钢;溅射铝;

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FORMATION MECHANISM OF POROUS STRUCTURE ON 316L STAINLESS STEEL BY ANODIZATION

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