To obtain access to full text of journal and articles you must register!
- Article name
- Nanocomposite plasma coatings based on metal-substituted hydroxyapatite for intraosseous replacement
- Authors
- DYDAREVA O. A., , kafbma2011@yandex.ru, Saratov State Technical University named after Yu. A. Gagarin, Saratov, Russia
MARKELOVA O. A., , markelovaoa@bk.ru, Saratov State Technical University named after Yu. A. Gagarin, Saratov, Russia
GRISHINA I. P., , kafbma2011@yandex.ru, Yuri Gagarin Saratov State Technical University, Saratov, Russia
LYASNIKOVA A. V., , kafbma2011@yandex.ru, Yuri Gagarin Saratov State Technical University, Saratov, Russia
LYASNIKOV V. N., , kafbma2011@yandex.ru, Yuri Gagarin Saratov State Technical University, Saratov, Russia
BARABASH A. P., , yubarabash@yandex.ru, Saratov Scientific Research Institute of Traumatology and Orthopedics, Saratov, Russia
SHPINYAK S. P., , s.shpiniak@rambler.ru, Saratov Scientific Research Institute of Traumatology and Orthopedics, Saratov, Russia
- Keywords
- plasma spraying / magnesium-substituted hydroxyapatite / zinc-substituted hydroxyapatite / nanocomposite coatings
- Year
- 2016 Issue 4 Pages 57 - 62
- Code EDN
- Code DOI
- Abstract
- Physicochemical and biomedical properties of nanocomposite coatings based on zinc- (Zn-HA) and magnesium-substituted (Mg-HA) hydroxyapatite obtained by plasma spraying have been investigated. It is found that in all types of coatings present HA nanoparticles and corresponding metal powder particles in a mass ratio of up to 20 %, both types of coatings have strong hydrophilic properties. Most resorbability (pHmax about 13.2) and the maximum adhesion (~14 MPa) demonstrate Mg-HA coating, however the antimicrobial potential found only in Zn-HA coatings.
- Text
- To obtain access to full text of journal and articles you must register!
- Buy
