RT Journal Article
T1 Low-energy plasma spray (LEPS) deposition of hydroxyapatite/poly-ε- caprolactone biocomposite coatings
A1 Garcia-Alonso, Diana
A1 Parco, Maria
A1 Stokes, Joseph
A1 Looney, Lisa
AB Thermal spraying is widely employed to deposit hydroxyapatite (HA) and HA-based biocomposites on hip and dental implants. For thick HA coatings (>150 μm), problems are generally associated with the build-up of residual stresses and lack of control of coating crystallinity. HA/polymer composite coatings are especially interesting to improve the pure HA coatings' mechanical properties. For instance, the polymer may help in releasing the residual stresses in the thick HA coatings. In addition, the selection of a bioresorbable polymer may enhance the coatings' biological behavior. However, there are major challenges associated with spraying ceramic and polymeric materials together because of their very different thermal properties. In this study, pure HA and HA/poly-ε-caprolactone (PCL) thick coatings were deposited without significant thermal degradation by low-energy plasma spraying (LEPS). PCL has never been processed by thermal spraying, and its processing is a major achievement of this study. The influence of selected process parameters on microstructure, composition, and mechanical properties of HA and HA/PCL coatings was studied using statistical design of experiments (DOE). The HA deposition rate was significantly increased by the addition of PCL. The average porosity of biocomposite coatings was slightly increased, while retaining or even improving in some cases their fracture toughness and microhardness. Surface roughness of biocomposites was enhanced compared with HA pure coatings. Cell culture experiments showed that murine osteoblast-like cells attach and proliferate well on HA/PCL biocomposite deposits.
SN 1059-9630
YR 2012
FD 2012-01
LK https://hdl.handle.net/11556/3313
UL https://hdl.handle.net/11556/3313
LA eng
NO Garcia-Alonso , D , Parco , M , Stokes , J & Looney , L 2012 , ' Low-energy plasma spray (LEPS) deposition of hydroxyapatite/poly-ε- caprolactone biocomposite coatings ' , Journal of Thermal Spray Technology , vol. 21 , no. 1 , pp. 132-143 . https://doi.org/10.1007/s11666-011-9695-0
NO The authors would like to thank Dr N.E. Vrana (MPRC, DCU, Ireland) for his help during biological testing and interpretation of cellular response results, T. Fernández Landaluce (TU Eindhoven, The Netherlands) for her help with the XPS measurements and data interpretation, and Prof. R. Heimann (TU Bergakademie, Germany) for his advice during the elaboration of this article. This research was supported by a Marie Curie Early Stage Research Training Fellowship of the European Community®s Sixth Framework Programme (MEST-CT-2005-020621).
DS TECNALIA Publications
RD 30 jul 2024