Elements-Added Diamond-Like Carbon Film for Biomedical Applications

Abstract: Elements-added diamond-like carbon films for biomedical applications were investigated. The aim of this work was to study the effects of the elemental contents (silicon and silicon-nitrogen) in a DLC film on its properties for biomedical applications. Pure DLC, Si-DLC, and Si-N-DLC films were prepared from C2H2, C2H2 : TMS, and C2H2 : TMS : N2 gaseous mixtures, deposited on an AISI 316L substrate using the plasma-based ion implantation (PBII) technique. The structure of films was analyzed using Raman spectrosc… Show more

“…DLC (Diamond-Like Carbon) films possess numerous desirable properties that make them appropriate for biomedical applications. These characteristics encompass high levels of hardness, low friction coefficient, strong resistance to corrosion, and good biocompatibility [12]. Surface modification of stainless steel by applying DLC (Diamond-Like Carbon) films is crucial for enhancing its wear resistance and self-lubricating properties.…”

Studies on Nano-Indentation and Corrosion Behavior of Diamond-Like Carbon Coated Stainless Steel (316L)

“…DLC (Diamond-Like Carbon) films possess numerous desirable properties that make them appropriate for biomedical applications. These characteristics encompass high levels of hardness, low friction coefficient, strong resistance to corrosion, and good biocompatibility [12]. Surface modification of stainless steel by applying DLC (Diamond-Like Carbon) films is crucial for enhancing its wear resistance and self-lubricating properties.…”

Studies on Nano-Indentation and Corrosion Behavior of Diamond-Like Carbon Coated Stainless Steel (316L)

Tribocorrosion of hard coatings and thin films

Metal concentration dependent mechanical properties of electrodeposited nickel incorporated diamond like carbon (Ni-DLC) thin films studied by nanoindentation