[ Moreau, 2017] Moreau, D., Borit, F., Corté, L., and Guipont, V. (2017). Cold Spray Coating of Submicronic Ceramic Particles on Poly(vinyl alcohol) in Dry and Hydrogel States. J. Thermal Spray Technol. 26, 958–969. DOI 10.1007/s11666-017-0551-8 / hal.archives-ouvertes.fr/hal-01599371
Abstract: We report an approach using cold spray technology to coat poly(vinyl alcohol) (PVA) in polymer and hydrogel states with hydroxyapatite (HA). Using porous aggregated HA powder, we hypothesized that fragmentation of the powder upon cold spray could lead to formation of a ceramic coating on the surface of the PVA substrate. However, direct spraying of this powder led to complete destruction of the swollen PVA hydrogel substrate. As an alternative, HA coatings were successfully produced by spraying onto dry PVA substrates prior to swelling in water. Dense homogeneous HA coatings composed of submicron particles were obtained using rather low-energy spraying parameters (temperature 200-250 °C, pressure 1-3 MPa). Coated PVA substrates could swell in water without removal of the ceramic layer to form HA-coated hydrogels. Microscopic observations and in situ measurements were used to explain how local heating and impact of sprayed aggregates induced surface roughening and strong binding of HA particles to the molten PVA substrate. Such an approach could lead to design of ceramic coatings whose roughness and crystallinity can be finely adjusted to improve interfacing with biological tissues.
Fig. 11 Effect of swelling in water of HA-coated PVA substrate (T = 200°C, P = 1 MPa, SoD = 30 mm): (a), (b) Coated substrate before immersion (a) and after 1 week in water under magnetic stirring at 37 °C (b). (c), (d) SEM-BSE images of HA-coated PVA hydrogel substrate after 1 week of immersion: surface view (c) and cross-section (d)