Synthesis and Characterization of Tungsten Carbide Nanoparticles

Abstract

Tungsten Carbide (WC) is one of the hardest materials used in cutting tool industry and as coating material. Fine and uniform distribution of tungsten carbide in the ductile metal matrix can give remarkable results like longer tool life. By reduction in size from micro to nano scale materials show different properties because of the high surface to volume ratio. High hardness and better toughness can be obtained by synthesizing particles of tungsten carbide in nano dimensions. Nano-grained WC/Co composites have the potential to become the new materials for tools and dies and wear parts. Shorter sintering time, high purity, and precise control of composition are the benefits of nano-grained WC/Co particles. These materials have superior properties and more homogeneous microstructure than conventional WC/Co composites. Higher toughness and ductility can be achieved without reducing hardness and wear resistance. In the present investigation thermo-chemical route for the synthesis of tungsten carbide nano particles is followed up. The synthesized powder is characterized by X-Ray diffraction and TEM technique. Thermal stability of powder is analyzed by DTA and TGA. The detail of the synthesis and characterization work is presented in this thesis.