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深冷处理对硬质合金的影响 被引量:11

Effect of Deep Cryogenic Treatment on Cemented Carbide
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摘要 综述了国内外硬质合金深冷处理的工艺过程及其深冷处理对硬质合金微观组织、相结构、残余应力状况、机械性能与切削性能的影响。深冷处理工艺包括降温和保温两个基本阶段,部分研究增加回火处理;深冷处理后硬质合金中η相含量增多且尺寸减小,Co对WC的粘结更紧密,但也有认为微观组织形貌变化不大的观点;Co相由面心立方向密排六方转变,而WC相变化不大;深冷处理可提高硬质合金耐磨性和延长使用寿命已得到共识,但对表面残余应力状况及硬度等影响尚存在不同观点。探索深冷处理对硬质合金的作用机理,并进行工艺参数的优化是目前研究工作的方向。 Deep cryogenic treatment process and the effect of the treatment on microstructure, phase structure, residual stress, mechanical properties and cutting performance for cemented carbide are summarized. Some literature shows that the cryogenic treat- ment process consists of cooling and isothermal stages, a few researches follow by tempering; the content of η phase increases and the grain size decreases in the cemented carbide after the cryogenic treatmen4 and the tungsten carbide particles are more firmly held by cobal4 but some literature reports that little microstrueture is changed; the cobalt phase transforms form FCC to HCP phase, but the WC phase remains stable; It is agreed on that deep cryogenic treatment can improve the wear resistance and extend the service life of cemented carbide, but there are different opinions upon the effect on the residual stress and hardness changes. The mechanism research of deep cryogenic treatment on cemented carbide and process optimization are current research orientation.
作者 杨梅 郭智兴 熊计 邱克辉 李峻峰 龙剑平
机构地区 成都理工大学材料与化学化工学院 四川大学制造科学与工程学院
出处 《硬质合金》 CAS 北大核心 2010年第3期186-193,共8页 Cemented Carbides
关键词 深冷处理 硬质合金 微观组织结构 应力状况 机械性能 切削性能 deep cryogenic treatment cemented carbide microstructure residual stress mechanical properties cutting performance
分类号 TG156.91 [金属学及工艺—热处理]
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参考文献18

  • 1Huang .I Y, Zhu T Y, Liao X Z, Beyerlein I .I, Bourke M A, Mitchell T E. Microstructure of cryogenic treated M2 tool steel[J]. Materials Science and Engineering A, 2003,339(1-2):241 - 244.
  • 2Yong A Y L, Seah K H W, Rahman M. Performance of cryogenically treated tungsten carbide tools in milling operations [J]. International Journal of Advanced Manufacturing Technology, 2007, 32 (7-8):638-643.
  • 3Reddy T V S, Sornakumar T, Reddy M V, Venkatram R. Machinability of C45 steel with deep cryogenic treated tungsten carbide cutting tool inserts[J]. International Journal of Refractory Metals & Hard Materials ,2009,27( 1 ) : 46 - 50.
  • 4Reddy T V S, Sornakumar T, Reddy M V, Venkatram R. Machining pedormance of low temperature treated P-30 tungsten carbide cutting tool inserts[J]. Cryogenics,2008,48(9-10) :458 - 461.
  • 5Yong A Y L, Seah K H W, Rahman M. Performance evaluation of cryogenically treated tungsten carbide tools in turning [J].International Journal of Machine Tools & Manufacture,2006,46(15):2051-2056.
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  • 7刘寿荣,刘方.WC-Co硬质合金深冷处理强化机理[J].金属热处理学报,1997,18(4):57-60. 被引量:29
  • 8Gill S S, Singh R,Singh H, Singh J. Wear behavior of cryogenically treated tungsten carbide inserts under dry and wet turning conditlons[J]. International Journal of Machine Tools & Manufacture, 2009, 49 (3-4): 256-260.
  • 9Vadivel K,Rudramoorthy R. Pedormance analysis of cryogenically treated coated carbide inserts[J].Internatlonal Journal of Advanced Manufacturing Technology, 2009,42 ( 3--4 ) : 222-232.
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二级参考文献14

共引文献48

同被引文献200

引证文献11

二级引证文献65

硬质合金
2010年 第3期

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