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新型(A+F)双相铁基堆焊合金热处理工艺探讨 被引量:2

Heat Treatment Technology for Two-phase Iron-based High Temperture Alloy
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摘要 采用金相显微镜、X射线衍射仪等测试手段和电化学分析的方法,对新型双相铁基堆焊合金的热处理工艺进行了研究。结果表明:该合金具有良好的耐热性。经不同的固溶时效处理工艺,获得了(α+γ)双相基体和弥散分布的M6C、Laves相等强化相。最佳的固溶时效处理工艺为:1160℃×2h水冷+810℃×5h空冷。 The heat treatment technology for two-phase iron-based high temperture alloy was studied by means of metallographic microscope, X-ray diffractometer and analysis of electron-chemistry. The results show that the aging microstmcture of the alloy consists of double basic phases (γ+α) and disepersed carbites M6C, intermediate phase Laves. The new alloy has superior high temperature mechanical properties and oxidation resistance.The optimun solution and aging process is solution at 1160℃ for 2h,then quenched in the water,aged at 810℃ for 5 h.
作者 郝红元 曹士锐 郝曜
机构地区 中北大学材料工程系
出处 《热加工工艺》 CSCD 北大核心 2006年第3期8-10,共3页 Hot Working Technology
基金 中北大学科学基金资助项目(2004024)
关键词 (α+γ)双相基体 固溶时效 复合强化 tdouble basic phase of (α+γ) solution and aging treatment laminating strengthening
分类号 TG132.3 [一般工业技术—材料科学与工程] TG422 [金属学及工艺—合金]
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参考文献2

  • 1《高温合金金相图谱》编写组编著..高温合金金相图谱[M].北京:冶金工业出版社,1979:220.
  • 2李玉清,刘锦岩著..高温合金晶界间隙相[M].北京:冶金工业出版社,1990:380.

同被引文献16

  • 1陈国胜,周乐澄,伍伯华,奚壮行,史新民,张赫瞳.铁基高温合金GH2871成分对组织和性能的影响[J].特殊钢,1994,15(6):63-69. 被引量:4
  • 2孙玉福,邓想,石广新.ZG30Cr30Ni8Si2NRE耐热钢的抗氧化性研究[J].热加工工艺,2005,34(3):19-21. 被引量:14
  • 3CAPDEVILA C, BHADESHIA H K. Manufacturing and microstructural evolution of mechanically alloyed oxide dispersion strengthened superalloys[J]. Advanced Engineering Materials, 2001, 3(9): 647-656. 被引量:1
  • 4KLUEH R L, SHINGLEDECKER J P, SW1NDEMAN R W, HOELZER D T. Oxide dispersion-strengthened steels: A comparison of some commercial and experimental alloys[J]. Journal of Nuclear Materials, 2005, 341(2/3): 103-114. 被引量:1
  • 5KLUEH R L, MAZIASZ P J, KIM I S, HEATHERLY L, HOELZER D T, HASHIMOTO N, KENIK E A, MIYAHARA K, Tensile and creep properties of an oxide dispersion-strengthened ferritic steel[J]. Journal of Nuclear Materials, 2002, (307/311): 773-777. 被引量:1
  • 6MUKHOPADHAYAY D K, FROES F H, GELLES D S, Development of oxide dispersion strengthened ferritie steels for fusion[J]. Journal of Nuclear Materials, 1998, 258/263(2): 1209-1215. 被引量:1
  • 7SCHAUBLIN R, RAMAR A, BALUC N, CASTRO V, MONGE M A, LEGUEY T, SCHMID N, BONJOUR C. Micrnstructural development under irradiation in European ODS ferritic/martensitic steels[J]. Journal of Nuclear Materials, 2006, 351(1/3): 247-260. 被引量:1
  • 8CHEN J, JUNG P, POUCHON M A, REBAC T, HOFFELNER W. Irradiation creep and precipitation in a fcrritic ODS steel under helium implantation[J]. Journal of Nuclear Materials, 2008, 373(1/3): 22-27. 被引量:1
  • 9OHTSUKA S, UKAI S, SAKASEGAWA H, FUJIWARA M, KAITO, NARITA T. Nano-mesoscopic structural characterization of 9Cr-ODS martensitic steel for improving creep strength[J]. Journal of Nuclear Materials, 2007, 367/370(1) 160-165. 被引量:1
  • 10OHTA J, OHMURA T, KAKO K, TOKIWAI M, SUZUKI T, Hardness of 12Cr-8Mo ferritic steels irradiated by Ni ions [J]. Journal of Nuclear Materials, 1995, 225: 187-191. 被引量:1

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热加工工艺
2006年 第3期

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