针对粉末冶金行业近年来出现的提高制品致密化的新途径,重点综述了温压技术、模壁润滑技术、动态磁力压制技术、爆炸压制技术、高速压制技术、等离子放电烧结技术的原理、特点和应用情况.
参考文献
| [1] | Capus J;Pickering S;Weaver A .Hoeganaes offers higher density at lower cost[J].Metal Powder Report,1994(49):22. |
| [2] | Howard G. Rutz;Francis G. Hanejko .HIGH DENSITY PROCESSING OF HIGH PERFORMANCE FERROUS MATERIALS[J].International Journal of Powder Metallurgy,1995(1):9,11-17-0. |
| [3] | 亓家钟 .铁基材料高密度温压工艺[J].粉末冶金工业,1996,6(02):14. |
| [4] | Engstran U;Johnsson B;Jacobsom O .温压粉末冶金材料的性能与公差[J].粉末冶金工业,1997,7(02):10. |
| [5] | 亓家钟 .Ancordense温压工艺[J].粉末冶金工业,1995,5(01):14. |
| [6] | Gay D .Slot heater your short-cut to warm compaction[J].Powder Metallurgy,1996,39(01):13. |
| [7] | Pickering S .Warm compacted turbine hub earns top ferrous prize from MPIF[J].Metal Powder Report,1997,7(07):12. |
| [8] | Lothar Albano-Müller.新千年初的欧洲粉末冶金[J].粉末冶金工业,2001(02):7-13. |
| [9] | Caroline Edser .JPMA awards highlight PM's innovative strengths[J].Metal Powder Report,2000(3):10-13. |
| [10] | Koller R;Maddinger J.Finite-element simulation of warm compaction process[M].Powder Metallurgy World Congress and Exhibition,Granada,Spain,1998:55. |
| [11] | Li Yuan yuan;Xiao Zhi yu;Ngai Tungwai Leo et al.Compacted NbC particulate reinforced iron-based composite (Ⅰ)-effect of fabrication parameters[J].Transactions of Nonferrous Metals Society of China,2002,12(04):659. |
| [12] | LI Yuan-yuan;XIAO Zhi-yu;NGAI Tungwai Leo .Warm compacted NbC particulate reinforced iron-base composite( II )[J].Transactions of Nonferrous Metals Society of China,2002(4):664-668. |
| [13] | Ball W G;Hinger F W;Mckotch R A.Replacing internal with external lubricants:Phase Ⅱ .Advances in powder metallurgy·particulate materials[M].Princeton:MPIF,2000:11. |
| [14] | Ball W G;Hibner P F;Hinger F W.Replacing internal with external lubricants:Phase Ⅲ.Advances in powder metallurgy·particulate materials[M].Princeton:MPIF,2000:3. |
| [15] | Michael L;Kelley P E.Application of external die wall lubrication utilizing a high volume low pressure system.Advances in powder metallurgy·particulate materials[J].Princeton:MPIF,2000:15. |
| [16] | James B A .Die wall lubrication for powder compaction:a feasible solution[J].Powder Metallurgy,1987,30(04):273. |
| [17] | Walter G. Ball .New die wall lubrication system[J].International Journal of Powder Metallurgy,1997(1):23-28. |
| [18] | Ball W G;Hibner P F;Hinger F W.Replacing internal with external lubricants:Phase Ⅲ.Advances in powder metallurgy·particulate materials[M].Princeton:MPIF,2000:32. |
| [19] | St Laurent S.Warm pressing and die wall lubrication[M].Intenational Seminar on Powder Metallurgy,Hangzhou,China,April,2002:16. |
| [20] | HVC punches PM to new mass production limits[J].Metal Powder Report,2002(9):26-30. |
| [21] | David W .8.5 million project to explore potential of magnetic compaction process[J].Metal Powder Report,1996,51(01):5. |
| [22] | J. Barber and B. Chelluri .Magnetic compaction process nears market[J].Metal Powder Report,2000(2):22-25. |
| [23] | 布拉齐恩斯基TZ.爆炸焊接成形与压制[M].北京:国防工业出版社,1988:101. |
| [24] | Blazynski T Z .Explosive welding,forming and Compaction[Z].Elsevier Science Pub Co,1983. |
| [25] | 曹力军,杨远刚,曾振鹏,吴建生,李同春.爆炸压制快淬NdFeB磁体的性能研究[J].实验室研究与探索,2002(04):51-52,77. |
| [26] | Prummer R .New compaction approaches to higher density PM[J].Powder Metallurgy,1998,41(04):25. |
| [27] | Alan L .Combustion drivern compaction process[J].International Journal of Powder Metallurgy,2001,37(08):22. |
| [28] | HVC punches PM to new mass production limits[J].Metal Powder Report,2002(9):26-30. |
| [29] | Hoganas promotes potential of high velocity compaction[J].Metal Powder Report,2001(9):6-0. |
| [30] | Gunaar S.Powders and materials in future PM applications[C].The Forum of Powder Metallurgy,Beijing,China,September,2002:15. |
| [31] | Nygen M;Shen Zhijian.Present and future SPS activities in Sweden and Europe[A].Tokyo,October,1999:15. |
| [32] | 李汶霞;鲁燕平.等离子烧结与等离子活化烧结[J].真空电子技术,1998(01):17. |
| [33] | 甄汉生.等离子体加工技术[M].北京:清华大学出版社,1990:1. |
| [34] | Matsumoto A .Research and development of novel materials by plasma discharge sintering process[J].Corrosion Engineering,1995,44(11):625. |
| [35] | 张东明,傅正义.放电等离子加压烧结(SPS)技术特点及应用[J].武汉工业大学学报,1999(06):15-17. |
| [36] | Masao T.Trends in advanced SPS systems and FGM technology[C].NEDO International Symposium on Functionally Graded Materials;Mielparque;Tokyo;October,1999:22. |
| [37] | UCHIDA H .Sintering and thermoelectric properties of CoSb3based thermoelectric materials produced with gas atomization[J].Journal of the Japan Institute of Metals,1999,63(11):1454. |
| [38] | H.Ono;M.Shimada .Magnetic Properties on Bulk Exchange-spring Magnets in Nd-Fe-Co-V-B System Formed by Spark Plasma Sintering[J].粉体および粉末冶金,2000(6):667-673. |
| [39] | Changchun Ge,Zhangjian Zhou,Jiangtao Li,Xiang Liu,Zhengyu Xu.Fabrication of W/Cu and Mo/Cu FGM as Plasma-facing Materials[J].北京科技大学学报(英文版),2000(02):122-125. |
| [40] | Toyohiko Y .Effect of sintering method on densification and mechanical properties of Si3N4/SiC composites with nitrates as sintering additives[J].Journal of the Ceramic Society of Japan,1998,106(02):559. |
| [41] | Nishimura T .Fabrication of silicon nitride Nano-ceramics by spark plasma sintering[J].Journal of Materials Science Letters,1995,1415(08):1046. |
| [42] | Omori M .Preparation of a WC/Mo functionally graded material[J].Journal of the Japan Institute of Metals,1998,62(11):986. |
| [43] | Wang Zheng;Matsumoto N .Phase transformation of Ni2MnGa made by the spark plasma sintering method[J].Materials Transactions,1999,40(05):389. |
| [44] | 张久兴,刘科高,周美玲.放电等离子烧结技术的发展和应用[J].粉末冶金技术,2002(03):129-134. |
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