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冷却速度对高速钢M_2C共晶碳化物的影响 被引量:14

Effect of Cooling Rates on M_2C Eutectic Carbides in High Speed Steel
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摘要 采用砂型和金属型铸造制备M2高速钢铸锭,研究了冷却速度变化对高速钢M2C共晶碳化物形态及性质的影响,探讨了M2C共晶碳化物形态变化的机理。结果表明,冷却速度增加,莱氏体网细化,铸态偏析得到改善;M2C形态由片层状转变为棒状,碳化物中合金元素含量降低,高温分解产生的MC碳化物和M6C+MC复合碳化物数量减少。共晶反应时,共晶碳化物和奥氏体相之间的生长速度差异决定了M2C共晶碳化物的形态。 The cast ingots prepared using sand mould and metal mould were analyzed to investigate the effect of cooling rates on morphologies and characters of M2C eutectic carbides in M2 high speed steel. The corresponding mechanism was also studied. The results show that the ledeburite network is refined and the segregation is improved with increasing of cooling rate. Meanwhile, the morphology of M2C carbides transforms from lamellar eutectic to rod-like eutectic. Compared with lamellar M2C, the concentration of alloying elements in rod-like M2C is lower and the amount of MC carbides and M6C+MC mixture carbides after decomposition of M2C is less. The difference of growing rate between M2C carbide and austenite determines the morpholocly of M2C eutectic carbides.
作者 周雪峰 方峰 蒋建清
机构地区 东南大学材料科学与工程学院
出处 《铸造》 CAS CSCD 北大核心 2008年第7期658-660,共3页 Foundry
基金 国家重点基础研究发展计划项目(2007CB616903) 江苏省科技成果转化资金专向资助项目(BA2005053)
关键词 高速钢 冷却速度 M2C共晶碳化物 形态 high speed steel cooling rate M2C eutectic carbide morphology
分类号 TG142.15 [金属学及工艺—金属材料]
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参考文献9

  • 1Fischmeister H F, Riedl R, Karagoz S. Solidification of high-speed tool steels [J]. Metallurgical. Transactions A, 1989, 20 (10) : 2133-2148.
  • 2Mclaughlin J, Kraft R W, Goldstein J I. Characterization. of the solidification structures within the dendritic core of M2 high speed steel [J]. Metallurgical. Transactions A, 1977, 8 (11) : 1787- 1792.
  • 3Kalinushkin E P, Mamusich I, Taran J. Effect of the cooling rate on the hot ductility and the mechanism of the phase transformation in solidification of tool steels [J]. Metallurgy, 1999, 38 (3) : 137- 141.
  • 4Nizhnikovskaya P F, Kalinushkin E P, Arshava E V, et al. Effect of the cooling rate on the mechanism and the kinetics of the phase transformations in solidification of W-Mo high-speed steels [J]. Metal Science and Heat Treatment, 1978. 29 (10) : 643-648.
  • 5Boccalini J M, Correa A V O, Goldenstein H. Rare earth metal induced modification of γ-M2C,γ-MrC, and γ-MC eutectics in as cast M2 high speed steel [J]. Materials Science and Technology. 1999, 15 (6): 621-626.
  • 6Hwang K C, Lee S, Lee H C. Effects of alloying elements on microstructure and fracture properties of cast high speed steel rolls, Part Ⅰ: Microstructural analysis [J]. Materials Science and Engineering A, 1998, 254 (1-2) : 282-295.
  • 7Fredriksson H, Hillert M, Nica M. The decomposition of the M2C carbide in high speed steel [J]. Scandinavian Journal of Metallurgy, 1979, 8 (3): 115-122.
  • 8罗迪,邢国华,李文成,廖欣.M2高速钢中的M_2C碳化物[J].材料科学进展,1990,4(3):232-236. 被引量:5
  • 9郭景杰,贾均,李庆春,李邦盛.铸铁快速凝固条件下共晶生长[J].金属学报,1991,27(6). 被引量:3

二级参考文献3

  • 1郭俊清,1989年
  • 2团体著者,铸铁结构,1977年
  • 3张俊觉,官民勇,罗迪,邢国华.影响M2钢丝“高频热塑性”的因素的讨论[J]工具技术,1985(04).

共引文献6

同被引文献146

引证文献14

二级引证文献56

铸造
2008年 第7期

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