以TiO2、B2O3、Mg粉为原料,引入稀释剂NaCl,通过自蔓延高温燃烧合成法宏量制备了亚微米TiB2粉体,并对其进行了SEM(扫描电镜)、EDS(能谱)、XRD(X射线衍射)和粒度分析.用原子吸收光谱测定了浸出产物TiB2粉体中杂质Mg,O的含量.结果表明:稀释剂加入量对样品形貌、粒度、物相有明显影响.随着NaCl含量的增加,制备的TiB2粉体的平均颗粒尺寸从496nm降低到268nm.产物浸出前主要由MgO,NaCl,TiB2和少量Mg3B2O6组成;浸出后前两相消失,产物为TiB2和少量Mg3B2O6.当原料中NaCl加入量k=0.5,1.0,1.5,2.0mol时,浸出产物中Mg3B2O6杂质含量极少,产品纯度均超过98%.稀释剂可以降低颗粒尺寸,提高产物纯度.采用此种自蔓延高温燃烧合成法可以大规模制备超细TiB2粉体.
参考文献
| [1] | C. Subramanian;T.S.R.Ch. Murthy;A.K. Suri .Synthesis and consolidation of titanium diboride[J].International Journal of Refractory Metals & Hard Materials,2007(4):345-350. |
| [2] | KRISHNARAO R V;SUBRAHMANYAM J .Studies on the formation of TiB2 through carbothermal and B2O3 reduction of TiO2[J].MATERIALS SCIENCE & ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING,2003,362:145-151. |
| [3] | A.K. Khanra;M.M. Godkhindi;L.C. Pathak .Sintering behaviour of ultra-fine titanium diboride powder prepared by self-propagating high-temperature synthesis (SHS) technique[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(0):281-287. |
| [4] | Eda Bilgi;H. Erdem Camurlu;Baris Akguen;Yavuz Topkaya;Naci Sevinc .Formation of TiB_2 by volume combustion and mechanochemical process[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,2008(4):873-881. |
| [5] | WELHAM N J .Formation of TiB2 from futile by room temperature ball milling[J].Minerals Engineering,1999,12:1213-1224. |
| [6] | MUNRO R G .Material properties of titanium diboride[J].Journal of Research of the National Institute of Standards and Technology,2000,105(5):709-720. |
| [7] | SUNDARAM V;LOGAN K V;SPEYER R F .Reaction path in the magnesium thermite reaction to synthesize titanium diboride[J].Journal of Materials Research,1997,12(10):2657-2664. |
| [8] | Yeon Hwang;Jong Kook Lee .Preparation of TiB_2 powders by mechanical alloying[J].Materials Letters,2002(1):1-7. |
| [9] | LU L;LAI M O;SU Y et al.In situ TiB2 reinforced A1 alloy composites[J].Scripta Materialia,2001,45(9):1017-1023. |
| [10] | RADEV D D;MARINOV M .Properties of titanium and zirconium diborides obtained by self-propagated high-temperature synthesis[J].Journal of Alloys and Compounds,1996,244(1-2):48-51. |
| [11] | XIANG X;QING Y .Progress in TiB2 and its composites[J].Journal of Ceramics,1999,20(2):112-117. |
| [12] | TANG Wen-ming,ZHENG Zhi-xiang,WU Yu-cheng,WANG Jian-min,L(U) Jun,LIU Jun-wu.Synthesis of TiB2 nanocrystalline powder by mechanical alloying[J].中国有色金属学会会刊(英文版),2006(03):613-617. |
| [13] | LIU Guang-hua;YANG Kun;LI Jiang-tao et al.Combustion synthesis of nanosized β-SiC powder on a large scale[J].Journal of Physical Chemistry C,2008,112(16):6285-6292. |
| [14] | NEKAHI ATIYE;FIROOZI SADEGH .Effect of KCl,NaCl and CaCl2 mixture on volume combustion synthesis of TiB2 nanoparticles[J].Materials Research Bulletin,2011,46:1377-1383. |
| [15] | A.K. Khanra;L.C. Pathak;S.K. Mishra .Effect of NaCl on the synthesis of TiB_2 powder by a self-propagating high-temperature synthesis technique[J].Materials Letters,2004(5):733-738. |
| [16] | CAMURLU H E;MAGLIA F .Preparation of nano-size ZrB2 powder by self-propagating high temperature synthesis[J].Journal of the European Ceramic Society,2009,29(9):1051-1506. |
| [17] | LA Pei-qing;HAN Shao-bo;JU Qian .Study of the influence of different stoichometry of Mg in staring mixture on particle size and purity of ZrB2powder prepared by combustion synthesis[J].Powder Metallurgy Technology,2013,31(1):1-7. |
| [18] | MERZHANOV A G.Combustion and Plasma Synthesis of High-Temperature Materials[M].New York:VCH Press,1990:204-251. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%