M. Ikeyama scite author profile

Silicon-incorporated diamond-like carbon (Si-DLC) films were deposited using a bipolar-type plasma based ion implantation and deposition technique, and the effects of Si-incorporation on the microstructural, tribological, anti-corrosion and lubricant bonding properties of the Si-DLC films were investigated. The analysis of Raman spectroscopy exhibited that the sp 3 bonds in the DLC film increase due to Si addition. XPS analysis revealed that a thick oxide layer exists on the Si-DLC film surfaces. These explain the high lubricant bonding properties of the Si-DLC films compared to that of the Si-free DLC films. The silicon oxide layer on the Si-DLC film and the transferred silicon oxide layer on the steel ball prevents from the metal/ DLC contact between the Si-DLC film and steel ball when sliding, which results in a low friction. Incorporation of Si in DLC films led to significant improvements in the corrosion resistance due to low internal stress and thick insulating oxide layer.

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M. Ikeyama

Effects of Si content in DLC films on their friction and wear properties

Corrosion protection of DLC coatings on magnesium alloy

The effects of Si incorporation on the thermal and tribological properties of DLC films deposited by PBII&D with bipolar pulses

Deposition of diamond-like carbon films using plasma based ion implantation with bipolar pulses

Deposition of Si-DLC film and its microstructural, tribological and corrosion properties

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