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Development of Nanoporous Alumina Catalyst Support by Anodic Oxidation of Thermally and Kinetically Sprayed Aluminum Coatings

机译：通过阳极氧化热和动力学喷涂铝涂层的纳米多孔氧化铝催化剂催化剂的研制

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Of the various catalyst supports that have been developed, nanoporous alumina prepared by anodic oxidation of aluminum layers has attracted particular interest because of its extremely high specific area, easy controllability of porosity, coating thickness, and high bond strength with substrates. In the present study, kinetic- and plasma-spraying methods are employed to deposit aluminum, and the effect of the deposition method on the nanopore density after anodic oxidation is examined through scanning electron microscopy, transmission electron microscopy, and electron backscatter diffraction observations. It is found that nanopore densities in the kinetically sprayed aluminum layers are much denser than in plasma-sprayed layers. It is hypothesized that this is attributed to the dense dislocation because of large internal stress during the deposition process.

机译：在开发的各种催化剂载体中，由于其铝层的阳极氧化制备的纳米多孔氧化铝由于其极高的特定区域，孔隙率，涂层厚度和高粘合强度的孔隙率，易于控制性而受到特别利益。在本研究中，采用动力学和等离子体喷涂方法沉积铝，并且通过扫描电子显微镜，透射电子显微镜和电子反向散射观察来检查沉积方法对阳极氧化后纳米孔密度的影响。发现动力学上喷涂的铝层中的纳米孔密度小于等离子体喷涂层。假设这归因于沉积过程中的内部应力大的致密脱位。

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来源
《International Thermal Spray Conference》|2013年||共7页
会议地点
作者
K. Sakata; K. Tagomori; N. Sugiyama; M. Takenouchi; Y. Shinya; K. Morimoto; Y. Suzuki;
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原文格式 PDF
正文语种
中图分类 TG174.442-53;
关键词
Aluminum; Anodic oxidation; Cold spray; Microstructure; Porosity; Scanning electron microscopy; Thermophotovoltaic; Transmission electron microscopy;

机译：铝;阳极氧化;冷喷;微观结构;孔隙;扫描电子显微镜;蒸煮电子显微镜;透射电子显微镜;透射电子显微镜;

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1. Development of Nanoporous Alumina Catalyst Support by Anodic Oxidation of Thermally and Kinetically Sprayed Aluminum Coatings [J] . K. Sakata, K. Tagomori, N. Sugiyama, Journal of Thermal Spray Technology . 2013,第2a3期

机译：热和动力学喷涂铝涂层的阳极氧化对纳米多孔氧化铝催化剂载体的开发
2. Continuous Photocatalytic Reduction of CO2 Using Nanoporous Reduced Graphene Oxide (RGO)/Cadmium Sulfide (CdS) as Catalyst on Porous Anodic Alumina (PAA)/Aluminum Support [J] . Kandy Mufeedah Muringa, Gaikar Vilas G. Journal of nanoscience and nanotechnology . 2019,第8期

机译：使用纳米多孔氧化物（RGO）/硫化镉（CDS）作为多孔阳极氧化铝（PAA）/铝载体的催化剂连续光催化还原CO2
3. Nanoporous Structure of Coatings Formed by Thermal Spraying of Aluminum Oxide with Further Mieroare Oxidation on Titanium Alloy VT6 Implants [J] . V. A. Koshuro, M. A. Fomina, I. V. Rodionov, Biomedical engineering . 2017,第1期

机译：通过在钛合金VT6植入物上的氧化铝热喷涂铝氧化铝的热喷涂形成的涂层纳米多孔结构
4. Development of Nanoporous Alumina Catalyst Support by Anodic Oxidation of Thermally and Kinetically Sprayed Aluminum Coatings [C] . K. Sakata, K. Tagomori, N. Sugiyama, International Thermal Spray Conference . 2013

机译：通过阳极氧化热和动力学喷涂铝涂层的纳米多孔氧化铝催化剂催化剂的研制
5. The thermal stability of anodic oxide coatings: Strength and durability of adhesively bonded titanium-aluminum-vanadium alloy. [D] . Tiwari, Rajesh Kumar. 2002

机译：阳极氧化物涂层的热稳定性：粘结的钛铝钒合金的强度和耐久性。
6. Formation of Nanoporous Anodic Alumina by Anodization of Aluminum Films on Glass Substrates [O] . Tetyana Lebyedyeva, Serhii Kryvyi, Petro Lytvyn, 2016

机译：通过玻璃基板上铝膜的阳极氧化形成纳米多孔阳极氧化铝
7. Microstructural evolution and growth kinetics of thermally grown oxides in plasma sprayed thermal barrier coatings [O] . Xiaoju Liu, Teng Wang, Caicai Li, 2016

机译：等离子喷涂热障涂层中热生长氧化物的微观结构演变和生长动力学

Development of Nanoporous Alumina Catalyst Support by Anodic Oxidation of Thermally and Kinetically Sprayed Aluminum Coatings

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