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4J50铁镍合金在空气中的氧化行为

Oxidation behavior of 4J50 Fe-Ni alloy under air atmosphere condition
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摘要 研究4J50铁镍合金在500~520℃空气中、22%~60%湿度范围内的氧化规律和氧化动力学,利用扫描电镜(SEM)、能谱仪(EDS)和X射线衍射(XRD)对氧化膜的形貌和相组成进行分析。结果表明:在氧化初期,基体表面生成不连续的氧化膜,其主要成分为Fe2O3;氧化时间为10~15 min时,生成均匀的氧化膜,其主要成分为Fe2O3和Fe3O4;提高氧化温度和相对湿度可加快4J50铁镍合金的氧化过程,相对湿度高于60%会显著降低氧化膜的粘附性。 Oxidation rules and kinetics of 4J50 Fe-Ni alloy under air atmosphere condition at different temperatures (500~520℃) and different relative humidities (22%~60%) were studied. Phase composition and morphology of oxide film were analyzed by SEM and EDS, XRD. Results show that a discontinuous oxide film generates on the surface of 4J50 Fe-Ni alloy in the initial stage of oxidation. The main phase composition of the oxide film is Fe2O3. After 10~15 min oxidation, an uniform and continuous oxide film generates on the surface. The main phase composition of the oxide film is Fe2O3 and Fe3O4. With increasing the oxidation temperature and relative humidity, the oxidation process of 4J50 Fe-Ni alloy accelerates. When the relative humidity is higher than 60%, the adhesion of the oxide film significantly decreased.
作者 朱赞涛 李国栋 熊翔
机构地区 中南大学粉末冶金研究院
出处 《粉末冶金材料科学与工程》 EI 北大核心 2014年第6期855-861,共7页 Materials Science and Engineering of Powder Metallurgy
基金 国家重点基础研究发展计划(973计划)资助项目(2011CB605805)
关键词 4J50铁镍合金 氧化 相对湿度 4J50 Fe-Ni alloy oxidation relative humidity
分类号 TG17 [金属学及工艺—金属表面处理]
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参考文献14

  • 1马英仁.封接玻璃(一)——对玻璃的要求及适于封接的金属[J].玻璃与搪瓷,1992,20(4):58-65. 被引量:26
  • 2CHAPMAN V, WELCH B J, SKYLLAS K M. High temperature oxidation behavior of Ni-Fe-Co anodes for aluminium electrolysis [J]. Corrosion Science, 2011, 53(9): 2815-2825.
  • 3周涛,李宇春,李志友,刘咏,周科朝.Ni-Fe-X基合金抗氧化性能的研究[J].粉末冶金材料科学与工程,2003,8(1):68-74. 被引量:2
  • 4周涛,袁铁锤,李志友,周科朝.两类Ni-Fe基合金抗氧化性能的对比研究[J].矿冶工程,2006,26(4):68-71. 被引量:6
  • 5MCCORMICK J, ZAKRAYSEK L. A metallographic test for glass-to-metal seal quality [C]. 17th Annual Proceedings Reliability, 1979: 44-55.
  • 6胡忠武,王警卫,杨清海,包杰.氧化膜对玻璃-Kovar合金封接的影响[J].稀有金属材料与工程,2000,29(6):427-429. 被引量:14
  • 7YANIV A E, KATZ D, KLEIN I E. A new technique of surface preparation for bonding glass to kovar [J]. Glass Technology, 1981, 22(5): 231-235.
  • 8ABENDROTH R P. Oxide formation and adherence on an iron-cobalt-nickel glass sealing alloy [J]. Materials Research and Standards, 1965, 5(9): 495-466.
  • 9ROSSOSHINSKII A A, KHOMENKO N N, KOTEL D I. Oxidation of kovar in different media [J]. Fiz Khim Obrab Mater, 1981(2): 73-76.
  • 10THOMAS W B. Matched glass-to-metal seal improvements by controlled atmosphere metal oxidation [J]. Solid State Technology, 1986, 29(9): 73-79.

二级参考文献29

  • 1黄乐,马莒生,唐祥云,朱奇农,张百林.氧化工艺对玻璃—金属封接管壳气密性的影响[J].电子工艺技术,1995,16(1):6-8. 被引量:6
  • 2陈国良.高温合金学[M].北京:冶金工业出版社,1998..
  • 3[1]The Aluminum Association. Inert anode roadmap: a framework for technology development[EB/OL]. http://www.oit. doe. gov/aluminum/inertmap. shtml, 1998-02.
  • 4[2]Baker F W, Rolf R L. Hall cell operation with inert anodes[J]. Light Metals, 1986:275-286.
  • 5[3]Brown C. Next generation vertical electrode cells[J]. JOM, 2001(5):39-42.
  • 6[4]Edwards L, Kvande H. Inert anodes and other new Al technologies-benefits, challenges, and impact on present technology[J]. JOM, 2001(5):48-50.
  • 7[5]Wang H, Thonstad J. The behavior of inert anodes as a function of some operating parameters[J]. Light Metals,1992: 283-290.
  • 8[6]Mcleod A D, Haggerty J S, Sadoway D R. Inert anode materials for hall cell [J]. Light Metals, 1986:269-273.
  • 9[7]Benedyk J C. Status report on inert anode technology for primary aluminum[J]. Light Metal Age, 2001 (2), 36-37.
  • 10[8]Sekhar J A, Deng H, Liu J. Micropyretically synthesized porous non-consumable anode in the Ni-Al-Cu-Fe-X syste[J]. Light Metals, 1997:347-354.

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粉末冶金材料科学与工程
2014年 第6期

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