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Suspension plasma spraying

Cattini, A., Bellucci, D., Sola, A., Pawlowski, L., and Cannillo, V. (2014) Microstructural design of functionally graded coatings composed of suspension plasma sprayed hydroxyapatite and bioactive glass. /. Biomed. Mater. Res. B Appl. Biomater., 102 (3), 551-560. [Pg.106]

Figure 5.29 Schematics of a suspension plasma spraying (SPS) apparatus. Figure 5.29 Schematics of a suspension plasma spraying (SPS) apparatus.
Figure 5.30 Processural steps occurring during suspension plasma spraying (SPS). Processes are indicated by italics. (Modified after Muller (2001).)... Figure 5.30 Processural steps occurring during suspension plasma spraying (SPS). Processes are indicated by italics. (Modified after Muller (2001).)...
Figure 5.31 Back-scattered electron (BSE) image of two characteristic zones of a suspension plasma sprayed HAp (a) and the Ca/P profiles obtained with electron probe... Figure 5.31 Back-scattered electron (BSE) image of two characteristic zones of a suspension plasma sprayed HAp (a) and the Ca/P profiles obtained with electron probe...
Figure 5.32 SEM images of conventional atmospheric plasma sprayed (APS, left) and suspension plasma sprayed (SPS, right) hydroxyapatite coatings, (a, b) Top view and (c, d) coating cross-sections (Gross and Saber-Samandari, 2009). ( With permission by Elsevier.)... Figure 5.32 SEM images of conventional atmospheric plasma sprayed (APS, left) and suspension plasma sprayed (SPS, right) hydroxyapatite coatings, (a, b) Top view and (c, d) coating cross-sections (Gross and Saber-Samandari, 2009). ( With permission by Elsevier.)...
Microstructural analysis of suspension plasma sprayed Ti02 coatings by Raman spectroscopy and transmission electron microscopy correlated well with results obtained by XRD. The anatase content in the coatings varied between 10 and 22 mass%, dependent on spraying parameters. Raman spectroscopy enabled the imaging of the spatial 2D-distribution of the rutile and anatase (Podlesak et al., 2008). Transmission electron microscope enabled to visualise the contact areas between the lamellae inside sprayed coatings as well as the columnar growth of crystal inside the lamellae. [Pg.191]

A., Valette, S., and Fauchais, P. (2010) Quantification of void networks of as-sprayed and annealed nanostructured yttria-stabilized zirconia (YSZ) deposits manufactured by suspension plasma spraying. Surf. Coat. Technol., 205 (3), 683-689. [Pg.228]

Chen, D.Y., Jordan, E.H., and Gell, M. (2009) Suspension plasma sprayed composite coating using amorphous powder feedstock. Appl. Surf. Sci., 255 (11), 5935-5938. [Pg.231]

D Haese, R., Pawlowski, L., Bigan, M., Jaworski, R., and Martel, M. (2010) Phase evolution of hydroxyapatite coatings suspension plasma sprayed using variable parameters in simulated body fluid. Surf. Coat. Technol., 204 (8), 1236-1246. [Pg.233]

Fauchais, P. and Vardelle, A. (2012) Solution and suspension plasma spraying of nanostructure coatings, in Advanced Plasma Spray Applications (ed. H. Jazi), InTech Europe, ISBN 978-953-51-0349-3. [Pg.234]

Gross, K.A. and Saber-Samandari, S. (2009) Revealing mechanical properties of a suspension plasma sprayed coating with nanoindentation. Surf. Coat. Technol., 203, 2995-2999. [Pg.235]

Jaworski, R., Pawlowski, L., Roudet, F., Kozerski, S., and La Maguer, A. (2008b) Influence of suspension plasma spraying process parameters on Ti02 coating microstructure. J. Therm. Spray Technol.,... [Pg.237]

Jaworski, R., Pierlot, C., Tomaszek, R., Pawlowski, L., Znamirowski, Z., and Zdanowski, J. (2007) Optimization of dielectric properties of suspension plasma sprayed hydroxyapatite coatings. Material-wiss. Werkstofftech., 38 (2), 125-130. [Pg.237]

Radio frequency (RF) suspension plasma sprayed ultra-fine hydroxyap-atite(HA)/zirconia composite powders. Biomaterials, 24 (15), 2611-2621. [Pg.239]

Latka, L., Goryachev, S.B., Kozerski, S., and Pawlowski, L. (2010b) Sintering of fine particles in suspension plasma sprayed coatings. Materials, 3 (7), 3845-3866. [Pg.240]

Muoto, C.K., Jordan, E.H., Gell, M., and Aindow, M. (2012) Microstructural characteristics of Y203-Mg0 composite coatings deposited by suspension plasma spraying. /. Therm. Spray Technol., 21 (6), 1309-1321. [Pg.243]

L., Laureyns, J., and Le Maguer, A. (2007) Microstructure of suspension plasma sprayed multilayer coatings of hydroxyapatite and titanium oxide. Surf. Coat. Technol., 201 (16-17), 7432-7440. [Pg.248]

Burlacov, 1., Muller, M., and Heimann, R.B. (2005) Group V metal oxides (V, Nb and Ta) doping of titania coatings by means of suspension plasma spraying. Proceedings 17th International Symposium on Plasma Chemistry, 7-12 August 2005, Toronto, Ontario, Canada. [Pg.246]

Toma, F.L, Bertrand, G., Chwa, S.O., Meunier, C., Klein, D., and Coddet, C. (2005) Comparative study on the photocatalytic decomposition of nitrogen oxides using Ti02 coatings prepared by conventional plasma spraying and suspension plasma spraying. Surf. Coat. Technol, 200 (20-21), 5855-5852. [Pg.251]

See other pages where Suspension plasma spraying is mentioned: [Pg.268]    [Pg.196]    [Pg.114]    [Pg.185]    [Pg.193]    [Pg.230]    [Pg.235]    [Pg.279]    [Pg.480]    [Pg.489]    [Pg.647]    [Pg.555]    [Pg.227]    [Pg.363]   
See also in sourсe #XX -- [ Pg.224 ]



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