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TECHNICAL PAPERS: Gas Turbines: Ceramics

Chemical Vapor Deposition of TBC: An Alternative Process for Gas Turbine Components

[+] Author and Article Information
G. Wahl

IOPW Braunschweig, Germany

W. Nemetz

IOPW Braunschweig Germany

M. Giannozzi

Nuovo Plgnone Florence, Italy

S. Rushworth

EPICHEM Bromborough, Great Britain

D. Baxter

IAM JRC Petten, Netherlands

N. Archer

ATL Uycomb, Great Britain

F. Cernuschi

ENEL Ricerca Milano, Italy

N. Boyle

SIFCO Cork, Ireland

J. Eng. Gas Turbines Power 123(3), 520-524 (Oct 01, 2000) (5 pages) doi:10.1115/1.1364495 History: Received October 01, 1999; Revised October 01, 2000
Copyright © 2001 by ASME
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References

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Duvall, D. S., 1981, “Processing Technology for Advanced Metallic and Ceramic Turbine Airfoil Coatings,” Proc. 2nd Conference Advanced Materials for Alternative Fuel Capable Heat Engines, EPRI RD-2369-SR.
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Wahl, G., 1993, Möglichkeiten der Hochgeschwindigkeitsbeschichtung durch CVD, Jahrbuch Oberflächentechnik, Band 49, pp. 253-281.
Stolle, R., 1997, Kinetische Messung und Simulation der Abscheidung von Bornitrid, CVD/CVI-Prozessen, Braunschweig.
Miller, R. A., Smialek, J. L., and Garlick, R. G., 1981, “Phase Stability in Plasma Sprayed, Partially Stabilised Zirconia-Yttria,” Advances in Ceramics, Vol. 3, Science and Technology of Zirconia, A. H. Heuer and L. W. Hobbs, eds., American Ceramics Society, Wasterville, OH, pp. 241–252.
Miller,  R. A., Garlick,  R. G., and Smialek,  J. L., 1983, “Phase Distributions in Plasma Sprayed Zirconia-Yttiia,” Ceram. Bull., 62, No. 12, pp. 1355–1358.

Figures

Grahic Jump Location
Deposition rate versus temperature
Grahic Jump Location
Evaporation behavior of Zr(thd)4
Grahic Jump Location
Influence of gas phase concentration and deposition temperature on microstructure

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