Nanosized tungsten carbide powders were synthesized by the chemical vapor condensation(CVC) process using the pyrolysis of tungsten hexacarbonyl(). The effect of CVC parameters on the formation and the microstructural change of as-prepared powders were studied by XRD, BET and TEM. The loosely agglomerated nanosized tungsten-carbide() particles having the smooth rounded tetragonal shape could be obtained below in argon and air atmosphere respectively. The grain size of powders was decreased from 53 nm to 28 nm with increasing reaction temperature. The increase of particle size with reaction temperature represented that the condensation of precursor vapor dominated the powder formation in CVC reactor. The powder prepared at was consisted of the pure W and cubic tungsten-carbide (), and their surfaces had irregular shape because the pure W was formed on the powders. The and W powders having the average particles size of about 5 nm were produced in vacuum.

A new approach to produce nanostructured WC/Co composite powders by a mechanochemical process was made to improve the mechanical properties of advanced hardmetals. Homogeneous spherical W-Co salt powders were made by spray drying of aqueous solution from ammonium metatungstate(,AMT) and cobalt nitrate hexahydrate (Co(NO).6). spray dried W-Co salt powders were calcined for 1 hr at in atmosphere of air. The oxide powder was mixed with carbon black by ball milling and this mixture was heated with various temperatures and times in . The composite oxide powders were obtained by calcinations at . The primary particle size of W/Co composite oxide powders by SEM was 100 nm. The reduction/carburization time decreased with increasing temperatures and carbon additions. The average size of WC particle carburized at by TEM was smaller than 50 nm.

전통적으로 초경합금은 무라까미 용액에서 에칭하거나 묽은 염산에 넣고 끓이는 방법에 의해 그 밋구조를 관찰하였다. 그러나 carbide 입자가 suvmicron 크기인 초경합금에서는 전통적인 에칭 방법으 에칭 후에도 입자/기지상, 입자/입자 입계를 동시에 구분시킬 수 있는 SEM 사진을 얻을 수 없다. 본 연구에서는 submicron 크기 초경합금의 고배율 SEM 사진을 얻을 수있는 90H2O2 - 10HNO3 (vol%)의 새로운 에칭 용액을 개발하였다