Improving Fe_3Al alloy resistance against high temperature oxidation by pack cementation process

Piotr Juzon; Marta Ziemnicka; Sebastien Chevalier; Kazimierz Przybylski; Jean Pierre Larpin

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Improving Fe_3Al alloy resistance against high temperature oxidation by pack cementation process

机译：通过填充胶结工艺提高Fe_3Al合金的抗高温氧化性能

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The paper presents the results of oxidation tests of Fe_3Al-based alloys containing additions of Cr, Zr, B, and C, with and without an aluminide coating. The coating was formed by a pack cementation process in which the surface of material got enriched in aluminum. The Al-rich layer was intended to enhance the tendency of Al_2O_3 formation. The slow-growing Al_2O_3 scale provides the best corrosion protection for structural materials at high temperatures. The cyclic oxidation tests were performed in laboratory air at 1373 K. The structure and composition of oxide scales as well as their adherence were evaluated and compared for the materials with and without aluminide coatings. Surface enrichment in aluminum and effect minor addition of Zr on oxidation behavior was discussed.

机译：本文介绍了含或不含铝化物涂层的含Cr，Zr，B和C的Fe_3Al基合金的氧化测试结果。涂层是通过填充胶结工艺形成的，其中材料的表面富含铝。富Al层旨在增强Al_2O_3形成的趋势。生长缓慢的Al_2O_3氧化皮为高温下的结构材料提供了最佳的腐蚀防护。循环氧化测试在实验室空气中于1373 K进行。评估并比较了带有和不带有铝化物涂层的材料的氧化皮的结构和组成及其附着力。讨论了铝的表面富集和微量添加Zr对氧化行为的影响。

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来源
《Applied Surface Science》 |2007年第11期|p.4928-4934|共7页
作者
Piotr Juzon; Marta Ziemnicka; Sebastien Chevalier; Kazimierz Przybylski; Jean Pierre Larpin;
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作者单位

Laboratoire de Recherches sur la Reactivite des Solides, UMR 5613 CNRS, av. A.Savary, BP 47870, 21078 Dijon Cedex, France;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
oxidation resistance; iron aluminide alloys; protective coatings; Zr doping effect;

机译：耐氧化性;铝化铁合金;防护涂层;Zr掺杂效应;
入库时间 2022-08-18 03:09:18

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机译：单步组装渗碳工艺制备具有Cr-Si-RE改性铝化物涂层的Ni基超级合金INC738LC的高温氧化和耐热腐蚀性能
2. Laser shock processing improving the high temperature oxidation resistance of the aluminized coating on GH202 by pack cementation [J] . Cao Jiangdong Applied Surface Science . 2019,第Nova1期

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3. Microstructure and high temperature oxidation resistance property of packing Al cementation on Ti-Al-Zr alloy [J] . Tian H., Zhou K., Zou Y. C., Surface & Coatings Technology . 2019,第期

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5. The development, growth and oxidation resistance of boron- and germanium-doped silicide diffusion coatings by fluoride-activated pack cementation. (Volumes I and II) [D] . Cockeram, Brian Vern 1994

机译：氟化物活化填充胶结法掺硼和锗的硅化物扩散涂层的发展，生长和抗氧化性。（第一和第二卷）
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7. Fe-Cr-Si Codeposition on Nb-Si based Alloys via Halide Activated Pack Cementation to Improve Oxidation Resistance [O] . Anderson Weslei da Cruz, Raphael Felca Glória, Rafaela de Oliveira Nogueira, 2020

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8. Niobium-aluminum base alloys having improved, high temperature oxidation resistance [R] . 1991

机译：铌铝基合金具有改善的高温抗氧化性

Improving Fe_3Al alloy resistance against high temperature oxidation by pack cementation process

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