Tribocorrosion response in biological environments of multilayer TaN films deposited by HPPMS

Biomedical implant failure arises mainly from the degradation caused by tribological processes occurring in the corrosive environment the human body represents, known as tribocorrosion. The material loss and metal ion release resulting from tribocorrosion processes compromise the biocompatibility of...

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Bibliographic Details
Published in:Surface & coatings technology 2016-06, Vol.295, p.60-69
Main Authors: Mendizabal, Lucia, Lopez, Ainara, Bayón, Raquel, Herrero-Fernandez, Pilar, Barriga, Javier, Gonzalez, Javier J.
Format: Article
Language:English
Subjects:
Biocompatibility
Biomedical implants
Coatings
Corrosion
Deposition
Friction
HPPMS
Multilayer films
Multilayers
Protective coatings
Surgical implants
Tantalum nitride
Titanium
Wear
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Summary:Biomedical implant failure arises mainly from the degradation caused by tribological processes occurring in the corrosive environment the human body represents, known as tribocorrosion. The material loss and metal ion release resulting from tribocorrosion processes compromise the biocompatibility of metallic implants. The deposition of protective coatings on metallic substrates is a promising solution to overcome this problem. Pure titanium (Ti-cp) is widely used as an implant material due to its excellent corrosion resistance and high biocompatibility. However, its mechanical properties must be improved in order to ensure a longer durability. For this purpose, TaN monolayer and multilayer coatings were deposited on medical grade Ti-cp to enhance its tribocorrosion performance in simulated body fluids. TaN coatings were deposited by recently developed High Power Pulsed Magnetron Sputtering (HPPMS) technique. HPPMS enables the deposition of extremely dense coatings with superior properties compared to the ones grown by conventional sputtering. Columnar-free TaN monolayer and multilayer films were developed exhibiting corrosion resistances in the MΩ range, one order of magnitude higher than for Ti-cp. Friction coefficient of Ti-cp was reduced from 0.58 to 0.25 while wear rate was considerably decreased. The determined material loss after tribocorrosion tests for Ti-cp was 0.4mm3. It was reduced up to 1.55×10−3mm3 by the application of best-performing TaN multilayer film. •TaN films were deposited by HPPMS for Ti-cp protection in simulated body fluids.•Multilayer TaN microstructure films were deposited by multipulse MPPMS.•Friction coefficient of Ti-cp was reduced from 0.58 to 0.25 by TaN coatings.•Material loss of Ti-cp caused by tribocorrosion phenomena decrease up to 96%.
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2015.11.012