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Research progress on the sintering technology and properties of fine-grained Ti(C,N) cermets |
WANG Hong-tao, LI Hong |
Tianjin College, University of Science and Technology Beijing, Tianjin 301830, China |
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Abstract The research results of fine-grained Ti(C,N) cermets sintering technology were summarized. The effects of different sintering methods on the microstructure and properties of Ti(C,N) cermets were analyzed briefly. The technical characteristics were summarized, and the development trend of fine-grained Ti(C,N) cermets was also discussed.
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Received: 03 February 2015
Published: 05 November 2015
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[1] Shinhoo Kang. Some issues in Ti(C, N) –WC–TaC cermets .Materials. Science and Engineering, 1996, A209:306–312[2] 熊惟皓. 颗粒型复合硬质材料微观组织与界面结构的研究[D]. 武汉: 华中理工大学, 1994[3] Ettmayer P., Lengauer W.. The story of cermets [J]. Powder Met. Int., 1989, 21(2):37-38[4] J.R.丁格尔波夫, W.B.克兰道夫(美). 金属陶瓷. 上海科技出版社, 1964: 1[5] Ettmayer P.. hardmetals and cermets [J]. Anu. Rev. Mater. Sci, 1989, 19: 145-164[6] Geoffrey. E. Sp riggs. A history of fine grained hard metal [J]. Int J Ref r Met Hard Mater, 1999, 13(5): 241–255[7] P. Luo, T. G. Nieh, A. J. Sschwartz, etc. Surface characteriazation of nano-structur metal and ceramic particles. Materials Science and Engineering A 204[J] (1995) 59–64[8] 冯拉俊, 刘毅辉, 雷阿利. 纳米颗粒团聚的控制, 微电子技术, 2003, 7∕8: 536– 542[9] 熊继, 张亚昆, 沈保罗等. 超细Ti(C, N) 金属陶瓷的制备及性能. 粉末冶金技术,2003, 2: 92– 95[10] Chul Jin Choi. Preparation of ultrafine TiC?Ni cermet powders by mechanical alloying[J] . Journal of Materials Processing Technology, 2000, 104(1): 127–132[11] Schubert W D, Bock A, Lux B. General aspect and limit s of conventional ultrafine WC powder manufacture and hard metal production[J]. R &H M, 1995, 13(5): 281–296[12] Leiderman M, Bostein O, Rosen A. Sintering, microstructure, and properties of submicrometre cermented carbides[J] . Powder Metallurgy, 1997, 40(3): 219–225[13] Westerlund, Jan; Vimercati, Alberto. Four decades of HIP progress .Metal Powder Report 2(2000): 14–21[14] 熊计, 沈保罗. 超细TiC0.7N0.3金属陶瓷的烧结工艺研究. 粉末冶金技术, 2004, 3: 164–167[15] Wore, R. Microwave sintering coming of age. Metal Powder Report 54(1999) 24, 26–28[16] Rodiger K, Dreyer K, Gerdes T, et al. Microwave sintering of hardmetals[J] . R &HM, 1998, 16(4-6):409–416[17] 朱丽慧, 马学鸣, 雷景轩等. 纳米硬质合金的研究进展. 稀有金属材料与工程, 2004, 4: 349-353[18] K. R?diger, K, dreyer, T. Gerdes etc. Microwave sintering of hardmentals. International Journal of Refractory Metals & Hard Materials 16(1998)409–416[19] Mats Nygren, Zhijian Shen. On the preparationof bio-nano and structural ceramics and composites by spark plasma sintering. Solid State Sciences 5(2003)125–131[20] Yamazaki K, Risbud S H, Aoyama H, et al. PAS(plasma activated sintering):transient sintering process control for rapid consolidation of powders[J]. Journal of materials precessing technology,1996, 56(1):955–965[21] Sugiyama A, Kobayashi K, Ozaki k. Preparation of Ultra Fine TiC Dispersed Ni-based Cermet by Mechanical Alloying[A]. UK: European Powder Metallurgy Association, 1998. 440– 444[22] SeungⅠ. Cha,Soon H. Hong,Byung K. Kim. Spark plasma sintering behavior of nanocrystalline WC-10Co cemented carbide powders. Materials Science and Engineering. A 351 (2003) 31–38[23] Ping Feng, Weihao Xiong, Lixin Yu etc. Phase evolution and microstructure characteristics of ultrafine Ti(C,N)-based cermet by spark plasma sintering. International Journal of Refractory Metals & Hard Materials 22(2004)133–138[24] Sherif El. Eskandarany M ,Mumoru Omori, Kenji Sumiyama etc. Plasma Activated Sintering for Consolidation of Mechnically Reacted TiN Powder. 粉体おょび粉末冶金,1997,44(6):547–553[25] 夏阳化, 丰 平, 胡耀波等.放电等离子烧结制备Ti(C, N)基金属陶瓷. 机械工程材料, 2004, 5: 29–31, 51[26] Fan Quncheng , Chai Huifen , Jin Zhihao. Combustion synthesis of Ti2C2Fe composite [J ] . J Mater Sci , 1997 , 32 (7) : 4219 - 4224.[27] La Salvia J C , Meyers M A , Kim D K. Combustion synthesis dynamic densification of TiC2 Ni cermets [J] . J Mater Synth Proc , 1994 , 2 (4) : 255 - 274.[28] Han Jie2Cai , Zhang Xing2Hong , Wood J V. In2situ combustion synthesis and densification of TiC2χNi cermets [ J ] . Materials Science and Engineering, 2000 , A280 (2) : 328 - 333. |
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