Mechanical and tribological properties of coatings sputtered from SiC target in the presence of CH4 gas

Abstract

Amorphous hydrogen-free silicon carbide (a-SiC) coatings demonstrate good adhesion to different steel substrates, low intrinsic stress and high hardness however show quite high coefficient of friction in comparison with carbon-based coatings. Some addition of carbon to SiC can promote the decrease of friction coefficient.In the present work the amorphous hydrogenated silicon-carbide (a-SiC:H) films with different C/Si ratio were prepared at room temperature using DC magnetron sputtering in two ways: (i) sputtering of silicon target; (ii) sputtering of SiC target, both in the gas mixture of Ar and CH4. In the latter case the films contained less hydrogen at the same C/Si ratio. The mechanical and tribological properties of these films were studied to find their optimum combination.The hardness, elastic modulus (nanoindentation), intrinsic stress (Stoney's formula) and coefficient of friction (pin on disc tribometer) were examined in dependence on the technological parameters, film structure and composition (Raman spectra, electron probe microanalysis). An increase of carbon in the films from 50 to 70at.% resulted in decrease of hardness and friction coefficient. In the first case (i) the hardness decreased from 13 to10GPa and in the second case (ii) from 23 to 16GPa. Thus sputtering of SiC target in the gas mixture of Ar and CH4 allows obtaining at room temperature the films with C/Si >1 in which relatively high hardness (16–18GPa) and low friction coefficient (~0.15) are combined.