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铸造Fe-B-C合金组织和性能的基础研究 被引量:25

A Study on the Microstructures and Properties of Cast Fe-B-C Alloy
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摘要 借助光学显微镜、扫描电镜、电子探针显微分析仪和X衍射分析等手段,研究了含1.5%~2.0%B、0.4%~0.7%C的铸造Fe-B-C合金的凝固组织及合金元素的分布规律,并测试了铸造Fe-B-C合金的力学性能.结果显示铸造Fe-B-C合金的凝固组织主要由珠光体、马氏体、铁素体和高硬度的Fe2B组成,硼元素主要分布在硼化物中,基体中分布甚微.铸造Fe-B-C合金正火处理后可以获得马氏体加Fe2B组成的双相组织,硬度大于60HRC,冲击韧性大于8 J/cm^2. The solidification structures of cast Fe-B-C alloy containing 1.5%~2.0%B and 0.4%~0.7% C and the distribution characteristics of alloy elements were researched by means of optical microscopy, scanning electron microscopy (SEM), electron probe microanalyzer (EPMA) and X-ray diffraction (XRD). The mechanical properties of cast Fe-B-C alloy were tested by impact tester and hardmeter. The results showed that the solidification structures of cast Fe-B-C alloy were made up of pearlite, martensite, ferrite and Fe2B having high hardness. Boron element mainly distributed in the boride and there was little distribution in the matrix. After normalizing treatment the structures of cast Fe-B-C alloy became a mixture of martensite and Fe2B boride, which presented a better performance in hardness and impact toughness. The hardness of cast Fe-B-C alloy exceeded 60 HRC and its impact touqhness was larqer than 8 J/cm^2.
作者 符寒光
机构地区 清华大学机械工程系清华大学先进成形制造重点实验室
出处 《铸造》 EI CAS CSCD 北大核心 2005年第9期859-863,共5页 Foundry
基金 中国博士后科学基金资助(2004036058)
关键词 Fe-B-C合金 硼钢 硼化物 硬度 冲击韧性 Fe-B-C alloy boron steel boride hardness impact toughness
分类号 TG113 [金属学及工艺—物理冶金]
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参考文献9

  • 1杨庆祥,廖波,刘建华,姚枚.Effect of Rare Earth Elements on Carbide Morphology and Phase Transformation Dynamics of High Ni-Cr Alloy Cast Iron[J].Journal of Rare Earths,1998,16(1):37-41. 被引量:4
  • 2Maldonado, R S I, Lopez D, et al. Microstructural evaluation of wear resistant high chromium, high carbon cast irons [J]. Materials Science and Technology, 2004, 20(3): 393-398
  • 3Kim C K, Park J I, Lee S, et al. Effects of alloying elements on microstructure, hardness, and fracture toughness of centrifugally cast high-speed steel rolls [J]. Metallurgical and Materials Transactions A, 2005, 36A(1): 87-97
  • 4SenS, SenU, BindalC. The growth kinetics ofborides formed on boronized AISI4140 steel [J]. Vacuum, 2005, 77(2):195-202
  • 5Hsu Chin-You, Yeh Jien-Wei, Chen Swe-Kai, et al. Wear resistance and high-temperature compression strength of FCC CuCoNiCrA10.5Fe alloy with boron addition [J]. Metallurgical and Materials Transactions A, 2004, 35A(5): 1465-1469
  • 6Christodoulou P, Calos N. A step towards designing Fe-Cr-B-C cast alloys [J]. Materials Science and Engineering A, 2001, 301A (2): 103-117
  • 7Jimenez J A, Gonzalez-Doncel G, Ruano O A. Mechanical properties of ultrahigh boron steels [J]. Advanced Materials,1995, 7(2):130-136
  • 8Bernadette W, Michael H and Klaus H. Investigations of the solidification structure of continuously cast slabs [J]. Steel Research, 1999, 70(10): 403-410
  • 9Krauss G. Physical Metallurgy and Heat Treatment of Steel [A].Boyer H E and Gall T L. Metal Handbook Desk Edition [M].American Society for Metals, 1985, 28-2-28-10

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铸造
2005年 第9期

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