Formation of self-organized nanoporous anodic films on Type 304 stainless steel

Kure K.; Konno Y.; Tsuji E.; Skeldon P.; Thompson G.E.; Habazaki H.

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Formation of self-organized nanoporous anodic films on Type 304 stainless steel

机译：在304型不锈钢上形成自组织的纳米多孔阳极膜

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The formation of self-organized nanoporous anodic films on Type 304 stainless steel in fluoride-containing ethylene glycol electrolyte is reported. A key factor in the formation of the nanoporous anodic films is the water concentration in the electrolyte, which must be 0.3 mol dm ~(- 3) or less for the present conditions of film formation, although nanoporous anodic films have been formed on iron at higher water concentrations. The films contain relatively high concentrations of iron, chromium, nickel, oxygen and fluorine species distributed throughout the film thicknesses. The fluoride species can be removed by post-annealing in air, which improves the chemical stability of the films without damaging the nanoporous morphology of the remaining oxide.

机译：据报道，在含氟化物的乙二醇电解质中，在304型不锈钢上形成了自组织的纳米多孔阳极膜。形成纳米多孔阳极膜的关键因素是电解质中的水浓度，对于目前的膜形成条件，其水浓度必须为0.3 mol dm〜（-3）或更小，尽管在铁上形成了纳米多孔阳极膜。更高的水浓度。该膜包含分布在整个膜厚度中的相对较高浓度的铁，铬，镍，氧和氟。可以通过在空气中进行后退火来去除氟化物，从而改善了膜的化学稳定性，而不会破坏剩余氧化物的纳米孔形态。

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《Electrochemistry communications》 |2012年第null期|共4页
作者
Kure K.; Konno Y.; Tsuji E.; Skeldon P.; Thompson G.E.; Habazaki H.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Anodizing; Nanoporous oxide; Organic electrolyte; Stainless steel;

机译：阳极氧化纳米多孔氧化物有机电解质不锈钢;

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1. Formation of self-organized nanoporous anodic films on Type 304 stainless steel [J] . Kure K., Konno Y., Tsuji E., Electrochemistry communications . 2012,第Null期

机译：在304型不锈钢上形成自组织的纳米多孔阳极膜
2. Formation of a self-organized nanoporous structure with open-top morphology on 304L austenitic stainless steel [J] . Hassan Atiqa, Ali Ghafar, Park Yeong Jeong, Nanotechnology . 2020,第31期

机译：在304L奥氏体不锈钢上形成自组织纳米多孔结构，具有俯视形态
3. Fabrication and formation mechanisms of ultra-thick porous anodic oxides film with controllable morphology on type-304 stainless steel [J] . Applied Surface Science . 2020,第Mara1期

机译：304型不锈钢形貌可控的超厚多孔阳极氧化物膜的制备与形成机理
4. Formation of Self-organized Nanoporous Anodic Films on Carbon Steel [C] . Y. Konno, S. Yang, E. Tsuji, Pacific rim meeting . 2013

机译：碳钢上自组织纳米孔阳极薄膜的形成
5. The Role of Deformation and Microchemistry in the Corrosion Processes of Type 304 Stainless Steel in Simulated Pressurized Water Reactor Environments [D] . Fisher, Kevin B. 2017

机译：在模拟压水反应堆环境中变形和微观化学在304型不锈钢腐蚀过程中的作用
6. Bi2Se3 Sensitized TiO2 Nanotube Films for Photogenerated Cathodic Protection of 304 Stainless Steel Under Visible Light [O] . Wencheng Wang, Xiutong Wang, Ning Wang, 2018

机译：Bi2Se3敏化的TiO2纳米管薄膜在可见光下对304不锈钢的光生阴极保护
7. *Investigation on the formation of titanium nitride thin films on 304 type stainless steel using plasma focus device [O] . Narges Fani, Hadi Savaloni 2012

机译：*使用等离子聚焦装置在304型不锈钢上形成氮化钛薄膜的研究
8. Dresden 1 Radiation Level Reduction Program. Intergranular Corrosion Tests of Sensitized Type-304 Stainless Steel in Dow NS-1, and Stress Corrosion Cracking Tests of Type-304 Stainless Steel and Carbon and Low Alloy Steels in Dow [R] . Walker, W. L. 1978

机译：德累斯顿1辐射水平降低计划。陶氏Ns-1中敏化型304不锈钢的晶间腐蚀试验，以及陶氏304型不锈钢和碳素和低合金钢的应力腐蚀开裂试验

Formation of self-organized nanoporous anodic films on Type 304 stainless steel

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