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M2C Precipitate in Isothermal Tempering of High Co-Ni Alloy Steel 被引量:1

M2C Precipitate in Isothermal Tempering of High Co-Ni Alloy Steel
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摘要 It is possible to measure different position along the axle direction of tappet. According to the maximum output of signal, the boundary of white iron structure and mottled iron structure can be deduced, and at the same time, it is possible to use inductance displacement meter to show the chill depth which is the distance from the boundary to the end. It is possible to measure different position along the axle direction of tappet. According to the maximum output of signal, the boundary of white iron structure and mottled iron structure can be deduced, and at the same time, it is possible to use inductance displacement meter to show the chill depth which is the distance from the boundary to the end.
作者 HU Zheng-fei WU Xing-fang LI Xiu-qiu WANG Chun-xu FANG Xin
机构地区 University of Science and Technology Beijing Central Iron & Steel Research Institute Fushun Special Steel Co
出处 《Journal of Iron and Steel Research(International)》 SCIE EI CAS CSCD 2001年第2期56-58,共3页 钢铁研究学报(英文版)
基金 Item Sponsored by Scientific and Technological Brainstorm Project for Ninth Five-Year Plan of China(97060900)
关键词 magnetic permeability chilled cast iron chill depth magnetic permeability chilled cast iron chill depth
分类号 TG161 [金属学及工艺—热处理] TG142.33 [金属学及工艺—金属材料]
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参考文献5

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  • 2[2]Dyson. D J, Keown S R, Aynor D R, et al. The Orientation Relationship and Growth of Mo2C in Ferrite [J]. Acta Metall,1966,14(7):867-875.
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同被引文献11

  • 1Masuyama F. History of Power Plant and Progress in Heat Re- sistant Steels [J]. ISIJ International, 2001, 41: 612.
  • 2Ennis P J, Czyrska F A. Recent Advances in Creep-Resistant Steels for Power Plant Applications [J]. Sadhana, 2003, 28(3/ 4) : 709.
  • 3Abe F, Horiuchi T, Taneike M, et al. Stabilization of Marten- sitic Microstructure in Advanced 9Cr Steel During Creep at High Temperature [J]. Mater Sci and Eng, 2004, 378A: 299.
  • 4Hald J. Microstructure and Long-Term Creep Properties of 9-13Cr Steels[J]. International Journal of Pressure Vessels and Piping, 2008, 85: 30.
  • 5Abe F. Analysis of Creep Rates of Tempered Martensitic 9 %0Cr Steel Based on Microstructure Evolution [J]. Mater Sci and Eng, 2009, 510A: 64.
  • 6Ennis P, QuadakkersWJ. The Steam OxidationResistance 9-12%Cr Steels [C]//Schubert F. Proceedings of the Seventh Liege Conference on Materials for Advanced Power Engineer- ing. Liege: [s.n.], 2002z 1131.
  • 7Kutsumi H, Itagaki T, Abe F. Improvement of Steam Oxida- tion Resistance for Ferritic Heat-Resistant Steels [C]//Schu- bert F. Proceedings of the Seventh Liege Conference on Materi- als for Advanced Power Engineering. Liege: [s. n. ], 2002: 1629.
  • 8Hattestrand M, Andren H O. Evaluation of Particle Size Dis- tributions of Precipitates in a 9 %Cr Steel Using Energy Filtered Transmission Electron Microscopy [J]. Micron, 2001, 22.. 789.
  • 9Abe F. Coarsening Behavior of Lath and Its Effect on Creep Rates in Tempered Martensitic 9Cr-W Steels [J]. Mater Sci and Eng, 2004, 387A: 565.
  • 10Cerjak H, Hofer P, Schaffernak B. Microstructural Aspects on Creep Behaviour of Advanced Power Plant Steels [J]. Key Eng Mater, 2000, 171-174: 453.

引证文献1

二级引证文献2

Journal of Iron and Steel Research(International)
2001年 第2期

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