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超高碳钢球化组织与性能研究 被引量:9

Study on Spheroidizing Structure and Properties of Ultrahigh Carbon Steel
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摘要 对一种含碳量为1.41%的超高碳钢分别采用离异共析(DET)和淬火+高温回火工艺球化后进行组织和力学性能研究。结果表明:球化处理后锻造组织中的碳化物得到充分球化,获得了铁素体基体上弥散分布超细球状碳化物的组织;其屈服强度和抗拉强度都有明显提高,伸长率达到17.5%,是一种优良的结构钢材料;超高碳钢拉伸过程中裂纹容易在大颗粒碳化物处萌生并扩展。 An ultrahigh carbon steel containing 1.41% carbon (mass fraction) was spheroidized by the divorced eutectoid annealing technique and quenching plus tempering technique, respectively. The microstructure and mechanical properties of the steel was investigated. The results indicate that carbides are spheroidized enough after spheroidized treatment, a structure of ferrite with ultra-fine carbides is obtained; yield strength and ultimate strength are greatly improved, extension rate is up to 17.5%, the ultrahigh carbon steel has an excellent steel structure; initiation and propagation of short fatigue cracks occur in large carbides of the ultrahigh carbon steel.
作者 曹海玲 张占领 朱杰武 柳永宁 许雁
机构地区 西安交通大学金属材料强度国家重点实验室 西北第二民族学院材料科学与工程系
出处 《热加工工艺》 CSCD 北大核心 2007年第16期19-21,共3页 Hot Working Technology
基金 国家自然科学基金资助项目(50571077) 陕西省科技攻关资助项目(2004KD7-G18)
关键词 超高碳钢 屈服强度 抗拉强度 伸长率 力学性能 ultrahigh carbon steel yield strength tensile strength elongation rate mechanical properties
分类号 TG142.1 [金属学及工艺—金属材料]
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参考文献5

  • 1Oyama T, Sherby O D, Wadsworth J, et al. Application of the divorced eutectoid transformation to the development of fined-grained, spheroidized structures in ultrahigh carbon steels[J]. Scripta. Metallurgica, 1984,18: 799-804.
  • 2Sherby O D. Divorced Eutectoid Transformation Process and Product of Ultrahigh Carbon Steels [P].United States Patent: 4448613,1984-05-15.
  • 3Sherby O D. Ultrahigh Carbon Steel Alloy and Processing Thereof[P].United States Patent:4533390,1985-08-06.
  • 4王宝奇,宋晓艳,李红娟,张建军,谷南驹.含铝超高碳钢等温球化工艺的研究[J].材料科学与工艺,2004,12(4):337-341. 被引量:11
  • 5王宝奇,彭会芬,宋晓艳,李红娟,谷南驹,石淑琴.锻造超高碳钢的球化工艺与力学性能[J].材料热处理学报,2004,25(1):27-31. 被引量:11

二级参考文献15

  • 1Sherby O D, Walser B, Young C M,et al. Superplastic ultra-high carbon steels[J]. Scripta Metall, 1975,9:569- 574.
  • 2Syn C K, Lesuer D R, Sherby O D. Influence of microstructur on tensile properties spheroidized ultrahigh-carbon( 1.8 pct C) steel [J]. Metall Trans, 1994,25A: 1481- 1493.
  • 3Oyama T, Sherby O D, Wadsworth J, et al. Application of the divorced eutectoid transformation to the development of fine-grained, spheroidized structures in ultrahigh carbon steels[J]. Scripta Metall, 1983,18: 799- 803.
  • 4Tsuzaki K, Sato E, Furimoto S,et al. Formation of an (α + 0) microduplex structure without thermomechanical processing in superplastic uhrahighcarbon steels[J]. Scripta Materialia , 1999,40:675 - 681.
  • 5Sunada H, Wadsworth J, Lin J, et al. Mechanical properties and microstructure of heat-treated ultrahigh carbon steels[J]. Mater Sci Eng, 1979,38:3540.
  • 6LESUER D R. The case for ultrahigh-carbon steels as structureal materials [J]. JOM, 1993,45 (8) :40 - 46.
  • 7SHERBY O D,OYAMA T, KUM M D W, et al. Ultrahigh carbon steels[J]. JOM,1985,37(6) :50-56.
  • 8SHERBY O D, WALSER B, YOUNG C M, et al. Superplastic ultra-high carbon steels [J]. Scripta Metall,1975,9 (5) :569 - 574.
  • 9OYAMA T, SHERBY O D, WADSWORTH J, et al.Application of the divorced eutectoid transformation to the development of fine-grained, spheroidized structures in ultrahigh carbon steels [J]. Scripta Metall, 1984,18(8): 799 -804.
  • 10SYNC K, LESUER D R, SHERBY O D. Influence of microstructure on tensile properties of spheroidized ultrahigh-carbon ( 1.8 pct c ) steel [J]. Metallurgical and materials Transactions A, 1994,25A( 7 ): 1481 - 1492.

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二级引证文献51

热加工工艺
2007年 第16期

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