Subject Areas :
سید علی صادقی فدکی 1 , ضیاء والفی 2 , کریم زنگنه مدار 3
1 - کارشناس ارشد، دانشگاه صنعتی مالک اشتر، تهران
2 - استادیار، دانشگاه صنعتی مالک اشتر، مجتمع مواد فلزی، تهران
3 - دانشیار، دانشگاه صنعتی مالک اشتر، مجتمع مواد فلزی، تهران
Keywords:
Abstract :
[1] R. A. Miller, “Current Status of Thermal Barrier Coatings – An Overview” Surf.Coat. Tech, Vol. 30, pp. 1 11, 1987.
[2] D. Ruddell& R. Stoner, “The effect of deposition parameters on the properties of yttria-stabilized zirconia thin films”, Thin Solid Films, Vol. 445, pp. 14–19, 2003.
[3] J. F. Li& H. Liao, “Plasma spraying of nanostructured partiallyyttriastabilized zirconia powders”, Thin Solid Films, Vol. 460, pp. 101–115, 2004.
[4] M. Vardelle, A. Vardelle & P. Fauchais, “Spray parameters and particle behavior relationships during plasma spraying” Thermal Spray Technology, Vol. 2, pp. 79-91, 1993.
[5] T. C. Nerz, J. E. Nerz, B. A. Kushner, A. J. Rotolico &W. L. Riggs: in Thermal Spray: International Advances in Coatings Technology, C. C. Berndt, ed, ASM International, Materials Park, OH, pp. 405-14, 1992.
[6] T. J. Steeper, D.J. Varacalle, G.C. Wilson& W.L. Riggs, “A design of experiment study of plasma-sprayed alumina-titania coatings” Thermal Spray Technology, Vol. 2, pp. 251-256, 1993.
[7] M. Dorfman & J. DeBarro: in Thermal Spray: International Advances in Coatings Technology, C. C. Berndt, ed., ASM International, Materials Park, OH, pp. 439-46, 1992.
[8] C. Moreau, P. Gougeon, M. Lamontagne, V. Lacasse & P. Cielo: in Thermal Spray Industrial Applications, C. C. Berndt and S. Sampath ,eds.,ASM International, Materials Park, OH, pp. 431-37, 1994.
[9] M. Friis, C. Persson & J. Wigren, “Influence of particle in-flight characteristics on the microstructure of atmospheric plasma sprayed yttria stabilized ZrO2”, Surf. Coat. Technol, Vol. 141, pp. 115-127, 2001.
[10] W.D. Swank, J.R. Fincke & D.C. Haggard: in Thermal Spray Science and Technology, C.C. Berndt and S. Sampath, eds, ASM International, Materials Park, OH, pp. 111-16, 1995.
[11] R. A. Neiser & T. J. Roemer: in Thermal Spray: Practical Solutions for Engineering Problems, C.C. Berndt, ed, ASM International, Materials Park, OH, pp. 285-93, 1996.
[12] R. N. Wright, J. R. Fincke, W. D. Swank, & D. C. Haggard: in Thermal Spray: Practical Solutions for Engineering Problems, C.C. Berndt, ed., ASM International, Materials Park, OH, pp. 511-16, 1996.
[13] A. C. Leger, M. Vardelle, A. Vardelle, P. Fauchais, S. Sampath, C. C. Berndt & H. Herman: in Thermal Spray: Practical Solutions for Engineering Problems, C.C. Berndt, ed, ASM International, Materials Park, OH, pp. 623-28, 1996.
[14] S. Sampath, J. Matejicek, C. C. Berndt, H. Herman, A. C. Leger, M. Vardelle, A. Vardelle & P. Fauchais: in Thermal Spray: Practical Solutions for Engineering Problems, C.C. Berndt, ed, ASM International, Materials Park, OH, pp. 629-36, 1996.
[15] P. Gougeon & C. Moreau, “Simultaneous independent measurement of splat diameter and cooling time during impact on a substrate of plasma-sprayed molybdenum particles”, Thermal Spray Technology, Vol. 10, pp. 76-82, 2001.
[16] T. A. Taylor, “Thermal-barrier coatings for more efficient gas-turbine engines”, Surf.Coat. Tech, Vol. 54, pp. 53-57, 1992.
[17] R. McPherson, “Adhesion Measurement of Films and Coatings”, Surf.Coat. Tech, Vol. 39, pp. 173-81, 1989.
[18] H. J. Gross, W. Mallener, D. Strover & R. Vassen: in Thermal Spray Coatings: Research, Design and Applications, C.C. Berndt and T.F. Ber- necki, eds, ASM International, Materials Park, OH, pp. 581-85, 1993.
[19] D. J. Greving, E. F. Rybicki & J.R. Shadley: in Thermal Spray Industrial Applications, C.C. Berndt and S. Sampath, eds., ASM International, Materials Park, OH, pp. 647-53, 1994.
[20] P. Bengtsson, T. Johannesson, “Characterization of microstructural defectsin plasma-sprayed thermal barrier coatings”, Therm. Spray Technol, Vol. 4, pp. 245–25, 1995.
[21] J. R. Fincke, D. C. Haggard & W. D. Swank, “Particle temperature measurement in the thermal spray process”, Thermal Spray Technology, Vol. 10, pp. 255-266, 2001.
[22] C. J. Li, Y. He & Ohmori, “A. Characterization of the microstructureof thermally sprayed coating”, Proceedings of 15th ITSC. Nice, pp. 717-722, 1998.
[23] S. Kuroda, “Properties and characterization of thermal sprayed coatings-a review of recent research process”, Proceedings of 15th ITSC. Nice, pp. 539-550, 1998.
[24] R. Morrell, Handbook of Properties of Technical and Engineering Ceramics, Part 1, Her Majesty's Stationery Office, London, pp. 151–158, 1989.
[25] R.W. Trice & K.T. Faber, “Role of lamellae morphology on the microstructure and mechanical properties of plasma sprayed alumina”, Am. Ceram. Soc, Vol. 83, pp. 889–894, 2000.
[26] T. W. Clyne & S. C. Gill, “Residual Stresses in Thermal Spray Coatings and Their Effect on Interfacial Adhesion: A Review of Recent Work” Thermal Spray Technology, Vol. 5, pp. 401-418, 1996.
[27] R. Vaßen, F. Traeger & D. St. over, “Correlation between spraying conditions and microcrack density and their influence on thermal cycling life of thermal barrier coatings”, Journal of Thermal Spray Technology, Vol. 13, pp. 396–404, 2004.
[28] D. J. Greving, E. F. Rybicki & J. R. Shadley, “Through-Thickness Residual Stress Evaluations for Several Industrial Thermal Spray Coatings Using a Modified Layer-Removal Method”, Thermal Spray Technol, Vol. 3, pp. 379-388, 1994.
[29] T. J. Steeper, D.J. Varacalle, G.C. Wilson & W.L. Riggs, “Atmospheric plasma sprayed thermal barrier coatings with high segmentation crack densities: Spraying process, microstructure and thermal cycling behavior” Surface & Coting Technology, Vol. 206, pp. 16-23, 2011.
[30] R. McPherson,” The effects of heat treatment on the phase transformation behavior of plasma-sprayed stabilized ZrO2 coatings”, Thin Solid Films, Vol. 39, pp. 173-181, 1989.
[31] J. Moon, H. Choi, H. Junkim & C. Lee,” The effects of heat treatment on the phase transformation behavior of plasma-sprayed stabilized ZrO2 coatings”, Surf. Coat. Technol, Vol. 155, pp. 1-10, 2002.
[32] J. Ilavsky & J. K. Stalick, “Phase composition and its changes during annealing of plasma-sprayed YSZ”, Surf. Coat. Technol, Vol. 127, pp. 120-129, 2000.
[33] JCPDS Data Cards, International Center of Diffraction Data, Swarthmore, PA, 1999.
[34] Afrasiabi, M. Saremi & A. Kobayashi, “Comparative Study on Hot Corrosion Resistance of Three Types of Thermal Barrier Coatings”, Mater. Sci. Eng, Vol. 478. pp. 264-269, 2008.
[35] H. Chen, Y. Zhang & Ch. Ding, “Tribological properties of nanostructured zirconia coatings deposited by plasma spraying”, Wear, Vol. 253, pp. 885-893, 2002.
[36] M. Pasandideh-Fard & V. Pershin, “Splat Shapes in a Thermal Spray Coating Process: Simulations and Experiments”, Thermal Spray Technology, Vol.11, pp. 206-217, 2001.
[37] M. Prystay & P. Gougeon, “Structure of Plasma-Sprayed Zirconia Coatings Tailored by Controlling the Temperature and Velocity of the Sprayed Particles”, Thermal Spray Technology, Vol. 10, pp. 67-75, 2001.
