Corrosion fatigue in DLC-coated articulating implants: an accelerated methodology to predict realistic interface lifetime

Abstract: We present a methodology to accelerate and estimate the lifetime of an interlayer under dynamic loading in body-like media. It is based on accelerating corrosion fatigue processes taking place at the buried interface of a Si-based adhesion-promoting interlayer in articulating implants on a CoCrMo biomedical alloy; the implants are coated with diamond-like carbon (DLC). The number of interface loading cycles to delamination is determined by reciprocal loading in corrosive fluid. Its dependence on the load is su… Show more

“…7d and it is composed of ca. 30% Si as SiC, and 70% C as carbide, consistent with previously published XPS depth profiling data of the same interlayer [38].…”

A methodology for characterizing the electrochemical stability of DLC coated interlayers and interfaces

“…7d and it is composed of ca. 30% Si as SiC, and 70% C as carbide, consistent with previously published XPS depth profiling data of the same interlayer [38].…”

A methodology for characterizing the electrochemical stability of DLC coated interlayers and interfaces

“…Due to the properties of DLC materials, especially including the chemical and tribological properties, these coatings are also widely used in biological applications [137][138][139][140].…”

Overview on the Antimicrobial Activity and Biocompatibility of Sputtered Carbon-Based Coatings

Tribocorrosion aspects of implant coatings: Hip replacements