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纳米晶掺钇硬质合金粉末的制备 被引量:2

Preparing Nano-Crystalline Y-Doped WC/Co Powder
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摘要 采用高能球磨法制备了纳米晶掺Y硬质合金粉末。用XRD,SEM和DTA等分析检测手段,研究了纳米晶掺Y硬质合金粉末的结构、形貌和相的变化。结果表明:高能球磨45h,可获得晶粒尺寸约为8nm的掺Y硬质合金粉末;微量Y的加入,有利于硬质合金粉末晶粒的细化;在25~45h范围内,随着高能球磨时间的延长,粉末晶粒尺寸减小,且掺Y硬质合金粉末的晶粒尺寸比未掺Y的硬质合金粉末晶粒尺寸要细一倍;高能球磨25h,粉末中Co相的X射线衍射峰消失。高能球磨掺Y硬质合金粉末的DTA曲线在626℃出现了1个尖锐的放热峰。高能球磨掺Y硬质合金粉末固结之后,其合金晶粒细小,机械性能较好。 The nano-crystalline Y-doped WC/Co powder was prepared by high energy ball milling. The nano-crystalline powders were characterized by means of XRD, SEM and DTA. The results show that nano-crystalline powder with grain size of 8 nm is obtained after ball milling for 45 h, and adding trace rare earth elements into carbides is effective to minify the grain size of WC/Co powder. The grain size of Y-doped powder becomes two times smaller as compar with the undoped powder within ball milling times of 25~45 h. The XRD peak of Co phase disappears after 25 h ball milling. A sharp peak of heat release at the temperature of 626 ℃ is emerged in DTA curve within the range of heating temperature. After consolidate the Y-doped WC/Co alloy by high energy ball milling exhibite ultra-fine grain sizes and better mechanical properties.
作者 刘沙 刘刚 杨贵彬 黄泽兰
机构地区 中南大学材料科学与工程学院 崇义章源钨制品有限公司
出处 《中国稀土学报》 CAS CSCD 北大核心 2003年第6期677-680,共4页 Journal of the Chinese Society of Rare Earths
基金 崇义章源钨制品有限公司资助项目(20003 10 22)
关键词 金属材料 纳米硬质合金 制备 高能球磨法 稀土 掺杂 晶粒 机械性能 metal materials cemented carbide nano-crystalline powder high energy ball milling rare earths
分类号 TF123.11 [冶金工程—粉末冶金] TG135.5 [一般工业技术—材料科学与工程]
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参考文献11

  • 1[1]Azcona Aordonez, Dominguez L, Sanchez J M, et al. Hot isostatic pressing of nanosized WC-Co hardmetals [A]. Eds. Kneringer G, Rodhammer P, Wildner H, 2001 May 28-June 1, 15th International Plansee Seminar [C]. Reutte, 2001, 2: 35.
  • 2[2]Seung I Cha, Soon H Hong, Gook H Ha, et al. Microstructure and mechanical properties of ultra-fine WC-10Co hardmetals [J]. Eds. Kneringer G, Rodhammer P, Wildner H, 2001 May 28-June 1, 15th International Plansee Seminar, Reutte, 2001, 2: 119.
  • 3[3]Toma Vasile, Catalin Sfat, Marius Vasilescu, et al. The improvement of the WC-TiC-Co alloy performances, realised by addition of (Ta, Nb)C [A]. Eds. Kneringer G, Rodhammer P, Wildner H, 15th International Plansee Seminar [C]. Reutte, 2001, 2: 152.
  • 4潘启芳.稀土氧化物对WC-Co硬质合金性能的影响[J].稀有金属材料与工程,1993,22(4):35-41. 被引量:14
  • 5Chenguang LIN General Research Institute for Non-ferrous Metals,Beijing,100088,China.Action of New Rare Earth Additions in Cemented Carbide[J].Journal of Materials Science & Technology,1993,9(3):177-184. 被引量:4
  • 6[6]Ji X, Y Jiangao, G Xinghua, et al. Application of rare earth elements in cemented carbide inserts, drawing dies and mining tools [J]. Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing, 1996, 209: 287.
  • 7[7]Yao Zhengui, Stiglich Jacob J, Sudarshan T S. Nanosized WC-Co holds promise for the future [J]. Metal Powder Report, 1998, 53(3): 26.
  • 8[8]Xueming M A, Gang J I, Ling Z, et al. Structure and properties of bulk nano-structured WC-CO alloy by mechanical alloying [J]. Journal of Alloys and Compounds, 1998, 264(1-2): 267.
  • 9S. Liu, D.Q. Yi, Y.X. Li and D.ZouSchool of Materials Science & Engineering, Central South University, Changsha 410083, ChinaHunan Yin Zhou Nonferrous Metals Hi.-Tech. Limited Company, Changsha 410083, China.PREPARING NANO-CRYSTALLINE La DOPED WC/Co POWDER BY HIGH ENERGY BALL MILLING[J].Acta Metallurgica Sinica(English Letters),2002,15(5):448-452. 被引量:5
  • 10[10]Engqvist H, Axen N. Abrasion of cemented carbides by small grits [J]. Tribology International, 1999, 32(9): 527.

二级参考文献11

  • 1[1]A. Azcona, L. Ordonez, Dominguez, J.M. Sanchez and F. Castro. in 15th International Plansee Seminar, eds. G. Kneringer, P. Rodhammer and H. Wildner (2001 May 28-June 1, Plansee Holding AG,Reutte, Austria, Vol.2) p.35.
  • 2[2]S.I. Cha, S.H. Hong, G.H. Ha and B.K. Kim, in 15th International Plansee Seminar,eds. G. Kneringer,P. Rodhammer and H. Wildner (2001 May 28-June 1, Plansee Holding AG, Reutte, Austria, Vol.2)p.119.
  • 3[3]T. Vasile, C. Sfat, M. Vasilescu and G. Zafiu, in 15th International Plansee Seminar, eds. G. Kneringer, P. Rodhammer and H. Wildner (2001 May 28-June 1, Plansee Holding AG, Reutte, Austria, Vol.2)p.152.
  • 4[4]Q.F. Pan, J.S. Xiyou and C.Y. Gongcheng, Rare Metal Materials and Engineering 22(4) (1993) 35 (in Chinese).
  • 5[5]C.G. Lin, Journal of Materials Science and Technology 9(3) (1993) 177.
  • 6[6]J. Xiong, J.G. Yang and X.H. Gao, Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing 209(1-2) (1996) 287.
  • 7[7]Z.G. Yao, Jacob J. Stiglich and T.S. Sudarshan, Metal Powder Report 53(3) (1998) 26.
  • 8[8]X.M. Ma, J.I. Gang, Z. Ling and Y.D. Dong, Journal of Alloys and Compounds 264(1-2) (1998) 267.
  • 9[9]X.M. Ma, L. Zhao, G. Ji and Y.D. Dong, Journal of Materials Science Letters 16(12 ) (1997) 968.
  • 10[10]H. Engqvist and N. Axen, Grits Tribology International 32(9) (1999) 527.

共引文献17

同被引文献32

引证文献2

二级引证文献11

中国稀土学报
2003年 第6期

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