期刊
LUBRICANTS
卷 10, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/lubricants10040058
关键词
biomaterials; coatings; hydroxyapatite; tribology
资金
- Foundation for Polish Science [POIR.04.04.00-00-16D7/18]
The biomaterial coatings described in this study have bioactivity and are suitable for bone tissue regeneration. They contain polymers, ceramics, and components of high biological value. The addition of ceramic phase should be controlled to avoid negative effects on material properties. The sample composed of PVP/PEG/GSH/COL/HA (5%) shows good performance and is suitable for bone regeneration.
The biomaterial coatings for bone tissue regeneration described in this study promote bioactivity. The ceramic-polymer composite coatings deposited on polylactide (PLA) plates contain polymers, namely polyvinylpyrrolidone (PVP)/polyethylene glycol (PEG), while the ceramic phase is hydroxyapatite (HA). Additionally, collagen (COL) and glutathione (GSH) are components of high biological value. Bone tissue materials requires additionally demanding tribological properties, which are thoroughly described in this research. These findings, presented herein for the first time, characterize this type of highly specific composite coating material and their indicate possible application in bone regeneration implants. Implementation of the collagen in the PVP/PEG/HA composite matrix can tailor demanding tribological performance, e.g., anti-wear and friction reduction. The addition of the ceramic phase in too high a content (15%) leads to the decreased swelling ability of materials and slower liquid medium absorption by composite coatings, as well as strong surface roughening and loosening tribological properties. In consequence, small particles of HA from the very rough composite crumble, having a strong abrasive effect on the sample surface. In conclusion, sample C composed of PVP/PEG/GSH/COL/HA (5%) exhibits high bioactivity, strong mechanical and tribological properties, the highest free surface energy, porosity, and accepted roughness to be implemented as a material for bone regeneration.
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