Title :
Fabrication of nano-TiN powder by pyrolysis conversion of TiO2 in a fluidized bed furnace
Author :
Chiu, Cheng-wei ; Chen, Fan-Shiong ; Lin, Hong-Ming
Author_Institution :
Dept. of Mater. Eng., Tatung Univ., Taipei, Taiwan
Abstract :
Nano-structure TiN powders were prepared by using anatase-TiO2 and graphite mixtures as the precursor. Prior to thermal conversion, the mixture of TiO2 and graphite was milled in a high energy attritor to enhance the validity of carbothermic reduction. The nano-TiN powders were thermal converted by introducing N2 into a low pressure circulated fluidized-bed reactor which was previously evacuated to the pressure around 10-1 torr. The formation of TiN compound is greatly enhanced by high-energy milling due to the reduced crystallite size, large grain boundary area, presence of amorphous phases and the increased defect concentration in the powder reactants given by the high-energy milling. The experiment results evidenced that the carbothermic reduction could not occur if the powder mixture of TiO2 + graphite had not undergone a severe milling.
Keywords :
amorphous state; ceramics; crystallites; grain boundaries; milling; nanoparticles; nanotechnology; powders; pyrolysis; reduction (chemical); titanium compounds; TiN; TiO2; TiO2-C; amorphous phase; anatase-TiO2-graphite mixture; carbothermic reduction; defect concentration; fluidized bed furnace; grain boundary area; high energy attritor; high-energy milling; nanoTiN powder; pyrolysis conversion; reduced crystallite size; thermal conversion; Fabrication; Fluidization; Furnaces; Grain boundaries; Heating; Inductors; Milling; Nitrogen; Powders; Temperature;
Conference_Titel :
Nanotechnology, 2005. 5th IEEE Conference on
Print_ISBN :
0-7803-9199-3
DOI :
10.1109/NANO.2005.1500842
