Effect of casting technology on microstructure and phases of high carbon high speed steel 被引量：1

Effect of casting technology on microstructure and phases of high carbon high speed steel

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摘要 The as-cast microstructures of high carbon high speed steels(HC-HSS) made by sand casting,centrifugal casting and electromagnetic centrifugal casting,respectively,were studied by using of optical microscopy(OM) and D/max2200pc X-ray diffraction.The results show that the microstructure of as-cast HC-HSS is dominated by alloy carbides(W2C,VC,Cr7C3),martensite and austenite.The centrifugal casting and electromagnetic centrifugal casting apparently improve the solidification structure of HC-HSS.With the increase of magnetic intensity(B),the volume fraction of austenite in the HC-HSS solidification structure increases significantly while the eutectic ledeburite decreases.Moreover,the secondary carbides precipitated from the austenite are finer with more homogeneous distribution in the electromagnetic centrifugal castings.It has also been found that the lath of eutectic carbide in ledeburite becomes finer and carbide phase spacing in eutectic ledeburite increases along with the higher magnetic field strength. The as-cast microstructures of high carbon high speed steels （HC-HSS） made by sand casting, centrifugal casting and electromagnetic centrifugal casting, respectively, were studied by using of optical microscopy （OM） and D/max2200pc X-ray diffraction. The results show that the microstructure of as-cast HC- HSS is dominated by alloy carbides （W2C, VC, Cr7C3）, martensite and austenite. The centrifugal casting and electromagnetic centrifugal casting apparently improve the solidification structure of HCoHSS. With the increase of magnetic intensity （B）, the volume fraction of austenite in the HC-HSS solidification structure increases significantly while the eutectic ledeburite decreases. Moreover, the secondary carbides precipitated from the austenite are finer with more homogeneous distribution in the electromagnetic centrifugal castings. It has also been found that the lath of eutectic carbide in ledeburite becomes finer and carbide phase spacing in eutectic ledeburite increases along with the higher magnetic field strength.

作者 Zhang Tianming Wang Qinjuan Song Xuding Fu Hanguang

机构地区 . School of Engineering Machinery Fujian Communication Technology College School of Materials Science and Engineering

出处《China Foundry》 SCIE CAS 2011年第2期197-201,共5页 中国铸造（英文版）

基金 supported by the special fund for basic scientifi c research of central colleges,Chang’an University (CHD2010JC015) the innovation fund of small and medium-sized enterprise of Science & Technology Ministry of China under grant no. 10C26213201139 Beijing Education Committee patent outcome conversion item

关键词高碳高度速度钢电磁的离心的扔团结结构阶段 high carbon high speed steel electromagnetic centrifugal casting solidification structure phase

分类号 TG142.45 [金属学及工艺—金属材料]

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参考文献2

1GE Yunlong YANG Yuansheng JIAO Yuning HU Zhuangqi Institute of Metal Research,Academia Sinica,Shenyang,ChinaGAO Yunyan JIA Guanglin Northeast University of Technology,Shenyang,China associate professor,Institute of Low Energy Nuclear Physics,Beijing Normal University,Beijing,100875,China.A NEW TECHNIQUE—ELECTROMAGNETIC CENTRIFUGAL CASTING PROCESS[J].Acta Metallurgica Sinica(English Letters),1993,6(11):349-358. 被引量：2
2张洪月.高速钢轧辊的研究和应用[J].钢铁钒钛,2004,25(3):54-60. 被引量：20

二级参考文献21

1Kang Y J, Oh J C, Lee H C, et al. Effects of Carbon and Chromium Additions on the Wear Resistance and Surface Roughness of Cast High-Speed Steel Rolls[J]. Metall Mater. Trans., 2001,32A(10): 2515-2525.
2Ikawa Y, Itami T, Kumagai K, et al. Spray Deposition Method and Its Application to the Production of Mill Rolls[J]. ISIJ International, 1990, 20(9): 756-763.
3Kerr E J. High Speed Steel Work Rolls at Dofasco[J]. I&SM, 2000, (1): 27-30.
4Walmag G, Skoczynski R J, Breyer J P. Improvement of the Work Roll Performance on the 2 050 mm Hot Strip Mill at Iscor Vanderbijlpark[J]. La Revue de Metalluige-CIT, 2001, (3): 295-304.
5Wankhede U, Samarasekera I V. Thermal Behavior of High Speed Steel Work Rolls in The Finishing Stands of A Hot Strip Mill[J]. I&SM, 1997(5): 55-60.
6Barzan D. The Use and Performance of High Speed Steel Rolls at Inland's 80 Inch Hot Strip Mill[J]. I&SM, 1996(2): 27-29.
7McManus G J. Speedy Advance Predicted for High Speed Steel Rolls[J]. Iron and Steel Engineer, 1999, (3): 59-60.
8Morikawa H, Okabayasghi A, Seto Y,et al. Abrasion-resistance Cast Iron Material for Rolling Rolls and Composite Rolls[P], European Patent, EP0464780, 2 July 1991.
9Becker K, Degner M, Thiemann G. Einsatz Von HSS-walzen an Einer Warmbreitbandstrasse[J]. Stahl und Eisen, 1999(8):107-110.
10桥本光生大有清司吉田幸一郎等.CPCプロセスにょる强韧ロルの开发[J].制铁研究,1990,(338):62-66.

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1徐流杰,邢建东,魏世忠,陈慧敏,龙锐.高钒高速钢与高铬铸铁的滚动磨损性能对比研究[J].西安交通大学学报,2006,40(3):275-278. 被引量：8
2徐流杰,魏世忠,季英萍,邢建东,龙锐.基体组织对高钒高速钢干滑动摩擦磨损行为的影响[J].润滑与密封,2006,31(11):105-107. 被引量：1
3徐流杰,魏世忠,邢建东,季英萍,张永振,龙锐.基于多次回归分析的高钒高速钢滚动磨损模型[J].材料热处理学报,2007,28(2):126-131. 被引量：4
4焦金玲,杨华,魏代斌.K/Na-V-Mo复合变质对轧辊用高速钢组织及性能的影响[J].热加工工艺,2007,36(9):27-29.
5焦金玲,杨华,魏代斌.K/Na-Si和K/Na-Mo对轧辊用高速钢组织及性能的影响[J].铸造,2007,56(8):872-874. 被引量：2
6陈应文,王朝晖,罗利威,谢劲松.珠钢热轧机高速钢轧辊应用技术开发[J].冶金丛刊,2007(5):1-3. 被引量：1
7童红飞,谢劲松.珠钢热连轧轧辊使用优化与创新[J].冶金丛刊,2007(5):38-41.
8辛志敏,谢劲松.珠钢薄规格热轧带钢轧制技术研究[J].河南冶金,2007,15(B09):33-35. 被引量：4
9辛志敏,谢劲松,赖华清.珠钢薄规格热轧带钢轧制技术研究[J].冶金丛刊,2007(6):4-6.
10李保元,徐流杰,魏世忠.高钒高速钢与高铬铸铁滑动磨损性能研究[J].矿山机械,2008,36(16):41-43. 被引量：1

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1周爱琪,王生,张之秀,郭剑仁.铸钢中残铝的作用及其控制[J].兵器材料科学与工程,1994,17(5):35-41. 被引量：2
2金宝士,黄志求.低碳低合金铸钢力学性能的研究[J].铸造技术,2005,26(4):277-279. 被引量：6
3杨爱国,邵文东.我国货车转向架的现状与发展趋势[J].铁道车辆,2005,43(6):1-6. 被引量：15
4向嵩,刘国权,李长荣,王安东,韩庆礼.低碳钢碳氮析出物的热力学计算[J].北京科技大学学报,2006,28(9):818-822. 被引量：19
5王春山.关于我国铁路货车装备现代化问题的研究[J].铁道车辆,2007,45(8):14-18. 被引量：12
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1Wang, SQ,Jiang, QC,Cui, XH,He, ZM.Effect of Boron on Carbide Morphology of High CrLedeburite Steel[J].Journal of Materials Science & Technology,1999,15(3):286-288.
2王树奇,姜启川,崔向红,何镇明.Effect of RE on Granulation of Eutectic Carbide in Ledeburite Steel[J].Journal of Rare Earths,1998,16(4):51-55.
3Wang, S.Q., Jiang, Q.C., Cui, X.H., He, Z.M. .EFFECT OF MODIFICATION ON CARBIDE GRANULATION AND ITS MECHANISM[J].Acta Metallurgica Sinica(English Letters),1999,12(2):167-172.
4Li Zhengbang,Che Xiangqian.Study on Factors Affecting the Structure of High Speed Steel Ingot Produced by ESR[J].Journal of Iron and Steel Research(International),1996,3(1):1-4. 被引量：1
5Hua-tang Cao,Xuan-pu Dong,Qi-wen Huang,Zhang Pan,Jian-jun Li,Zi-tian Fan.Effect of scanning speed during PTA remelting treatment on the microstructure and wear resistance of nodular cast iron[J].International Journal of Minerals,Metallurgy and Materials,2014,21(4):363-370. 被引量：6
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10SHEN Lian LI Chenglao WANG Xiuling MA Lihua ZHU Daozhen Xi’an Jiaotong University,Xi’an,China Associate Professor,Dept.of Materials Science and Engineering,Xi’an Jiaotong University,Xi’an,China.EFFECT OF LASER MELTING PROCESSING ON MICROSTRUCTURE OF GRAY CAST IRON[J].Acta Metallurgica Sinica(English Letters),1989,2(4):305-307.

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