热等离子技术在纳米粉制备中的应用Preparation of nano-powder by thermal plasma
邹敏明;严密;尚福军;史洪刚;田开文;黄伟;苏继红;
摘要(Abstract):
热等离子技术已广泛应用于纳米粉制备,其制备的纳米粉具有球化率高、纯度高、粒度分布窄等特点。介绍不同热等离子技术的原理及其在纳米粉制备中的应用,分析热等离子制备纳米粉技术的优缺点,并展望热等离子体制备纳米粉的发展趋势。
关键词(KeyWords): 热等离子;纳米粉;优缺点;发展趋势
基金项目(Foundation): 宁波市自然科学基金(2010A610167);; 中国兵器科学研究院宁波分院院列基金
作者(Author): 邹敏明;严密;尚福军;史洪刚;田开文;黄伟;苏继红;
Email:
DOI: 10.14024/j.cnki.1004-244x.2011.01.012
参考文献(References):
- [1]关波.氧化物纳米粉末的直流电弧等离子体制备及放电等离子(SPS)烧结[D].武汉:武汉理工大学,2004.
- [2]王毅,崔作林,张志焜.单晶纳米钽粉的电弧等离子体法制备[J].稀有金属材料与工程,2005,34(2):309-311.
- [3]魏智强,马军,冯旺军,等.等离子体制备银纳米粉末的研究[J].贵金属,2004,25(3):29-32.
- [4]刘伟,张现平,崔作林,等.氢电弧等离子体法制备纳米金粒子[J].稀有金属,2004,28(6):1082-1084.
- [5]王超,张振忠,段志伟.直流电弧等离子体法制备纳米铁粉[J].铸造技术,2007,28(3):417-420.
- [6]安少华,张振忠,路成杰,等.直流氢电弧等离子体蒸发法制备纳米Cu粉[J].特种铸造及有色合金,2007,27(6):488-491.
- [7]路承杰,张振忠,周剑秋,等.直流电弧等离子体蒸发法制备纳米Ni粉[J].新技术新工艺,2007(3):97-100.
- [8]张振忠,安少华,赵芳霞,等.直流氢电弧等离子体蒸发法制备纳米锡粉[J].材料热处理学报,2008,29(5):9-12.
- [9]张振忠,江成军,赵芳霞,等.直流电弧等离子体法制备超细银钯合金粉[J].稀有金属材料与工程,2008,37(11):1988-1992.
- [10]王忠,田文怀,刘小鹤,等.硅镍纳米颗粒的氢电弧等离子体制备及电化学性能研究[J].无机化学学报,2006,22(4):661-665.
- [11]孙维民.电弧法制备纳米粉体的稳定化处理及应用研究[D].沈阳:沈阳工业大学博士学位论文,2007.
- [12]王忠,黄玲,田文怀,等.Ni3Al纳米颗粒的氢电弧等离子体合成及表征[J].云南大学学报:自然科学版,2005,27(3A):56-59.
- [13]孙丽达,陈敬超,黄子良.等离子电弧法制备纳米SnO2的试验研究[J].电工材料,2008(3):7-9.
- [14]董立峰,崔作林.电弧等离子体制备纳米ZnO的气敏特性[J].材料研究学报,1998,12(4):407-410.
- [15]崔作林,董立峰.电弧等离子体法制备的纳米α-Fe2O3的气敏特性[J].功能材料,1995,26(4):321-323.
- [16]Balasubramaniam C,Khollam Y B,Banerjee I,et al.DCthermal arc-plasma preparation of nanometric and stoichio-metric spherical magnetite(Fe3O4)powders[J].Materials Let-ters,2004,58(30):3958-3962.
- [17]张现平,张志焜,崔作林.氢电弧等离子体法制备碳包铁纳米粒子[J].材料科学与工程学报,2004,22(4):596-599.
- [18]魏智强,汪宝珍,闫晓燕,等.直流电弧等离子体制备NiO包覆Ni纳米颗粒[J].中国有色金属学报,2009,19(11):2038-2043.
- [19]曹立宏,傅磊,樊友三.直流电弧等离子体制备TiN纳米粉末的研究[J].硅酸盐学报,1997,25(1):106-109.
- [20]Kaneko K,Kitawaki K,Sadayama S,et al.Fabrication andcharacterization of TiN nanocomposite powders fabricated byDC arc-plasma method[J].Journal of Alloys and Compounds,2010,492(1/2):685-690.
- [21]王耀军.TIU-60感应等离子纳米粉末合成及应用[J].新技术新工艺,2006(8):32-34.
- [22]尚福军,黄伟,史洪刚,等.等离子体技术对钽粉杂质含量降低作用机制[J].兵器材料科学与工程,2009,32(2):63-67.
- [23]Takamasa I,Seungmin O,Li Jiguang,et al.Controlling thesynthesis of TaC nanopowders by injecting liquid precursorinto RF induction plasma[J].Science and Technology ofAdvanced Materials,2005,6(2):111-118.
- [24]Fan Xiaobao,Ishifaki T.In-flight nitriding of the MoSi2 pow-ders in an Ar-N2 induction plasma[J].Thin Solid Films,1998,316(1/2):174-177.
- [25]程起林,赵斌,刘兵海.微波等离子体法制备纳米钼粉[J].华东理工大学学报:自然科学版,1998,24(6):731-735.
- [26]Brenner J R,Harkness J B L,Knickelbein M B,et al.Mi-crowave plasma synthesis of carbon-supported ultrafine metalparticles[J].Nanostructured Materials,1997,8(1):1-17.
- [27]李松川,程如烟,马兵,等.常压微波等离子体气相反应合成氧化物超微粒子[C]//第七届全国等离子体科学和技术会议论文集.北京:[出版者不详],1995.
- [28]Vollath D,SzabóD V.Synthesis and properties of nanocrys-talline superparamaganeticγ-Fe2O3[J].Nanostructured Ma-terials,1995,6(2):941-944.
- [29]Vollath D,Sickafus K E.Sickafus.Synthesis of nanosized ce-ramic oxide powders by microwave plasma reactions[J].Nanostructured Materials,1992,1(5):427-437.
- [30]Castro D T,Ying J Y.Synthesis and sintering of nanocrys-talline titanium nitride[J].Nanostructured Materials,1997,9(1/8):67-70.
- [31]Chau J L H,Kao C C.Microwave plasma synthesis of TiNand ZrN nanopowders[J].Materials Letters,2007,61(7):1583-1587.
- [32]Vollath D,SzabóD V.Synthesis of nanocrystalline MoS2 andWS2 in a microwave plasma[J].Materials Letters,1998,35:236-244.
- [33]Szabo D V,Vollath D.Morphological characterization ofnanocrystals with layered structures[J].Nanostructured Ma-terials,1999,12(1/4):597-600.
- [34]Wang Xizhang,Hu Zheng,Chen Xin,et al.Preparation of car-bon nanotubes and nano-particals by microwave plasma-en-hanced chemical vapor deposition[J].Scripta Mater,2001,44:1567-1570.
- [35]Yu J,Zhang Q,Ahn J,et al.Synthesis of carbon nanostruc-tures by microwave chemical vapor deposition and their char-acterization[J].Materials Science and Engineering B,2002,90(1/2):16-19.
- [36]Vollath D,Szabo D V,Fuchs J.Synthesis and properties ofceramic-polymer composits[J].Nanostructured Materials,1999,12(1/4):433-438.
- [37]Iwama S,Fukaya T,Tanaka K.Nanocomposite powders ofFe-C system produced by the flowing gas plasma processing[J].Nanostructured Materials,1999,12(1/4):241-244.
- [38]Etemadi K.Formation of aluminum nitrides in thermal plas-ma[J].Plasma Chemistry and Plasma Processing,1991,11(1):41-56.
- [39]Godin M F,Chevallier F,Amouroux J,et al.Synthesis of alu-minum nitride powder by thermal[C].Process of 10th Inter-national Symposium on Plasma Chemistry,Bochum:[s.n.],1991.
- [40]Ageorges H,Megy S,Chang K,et al.Synthesis of aluminumnitrides in transferred arc plasma furnaces[J].Plasma Chem-istry and Plasma Processing,1993,13(4):613-632.
- [41]Munz R J,Addona T,Cruz A C.Application of transferredarcs to the production of nanoparticles[J].Pure Appl Chem,1999,71(10):1889-1897.
- [42]Celik C,Claire P,Addona T,et al.Method and transferredarc plasma system for production of fine and ultrafine pow-ders:US,6379419[P].2002-04-30.