EFFECTS OF ION-BEAM BOMBARDMENT OF CARBON THIN-FILMS DEPOSITED ONTO TUNGSTEN CARBIDE AND TOOL STEELS

A study was made of the effects of argon ion bombardment of carbon thin films deposited onto WC and tool steels. Carbon thin film deposition was performed at various temperatures ranging from 200-degrees-C to 350-degrees-C, using C6H6 gas. Argon ion beam bombardment of the films was carried out at an energy of 150 keV with a dose of 1 x 10(16) ions cm-2. The hardness and adhesion of the films were measured by means of Knoop hardness and scratch tests respectively. The structure of the carbon films was estimated by laser Raman spectroscopy, and the relations were investigated between the mechanical properties and the structure of the films. The hardness of carbon thin films increases as their deposition temperature decreases; this tendency corresponds to the increase in amorphous structure estimated by Raman spectra. Argon ion bombardment results in constant hardness and fraction of amorphous structure. Argon ion beam bombardment of films prior to additional carbon deposition may cause the adhesion of the subsequently deposited films to improve. It is concluded that argon ion beam bombardment is useful for improving the properties of carbon films deposited onto WC and tool steels.