Lifetime Performance of EB-PVD Thermal Barrier Coatings with Coating Thickness in Cyclic Thermal Exposure

Zhe Lu; Seoung Soo Lee; Je-Hyun Lee; Yeon-Gil Jung

Korean Journal of Materials Research, Vol.25, No.10, 571-576, October, 2015

DOI10.3740/MRSK.2015.25.10.571 Export Citation

Lifetime Performance of EB-PVD Thermal Barrier Coatings with Coating Thickness in Cyclic Thermal Exposure

Zhe Lu, Seoung Soo Lee, Je-Hyun Lee , and Yeon-Gil Jung^†

School of Nano & Advanced Materials Engineering, Changwon National University, Changwon, Gyeongnam 641-773, Korea

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The effects of coating thickness on the delamination and fracture behavior of thermal barrier coating (TBC) systems were investigated with cyclic flame thermal fatigue (FTF) and thermal shock (TS) tests. The top and bond coats of the TBCs were prepared by electron beam-physical vapor deposition and low pressure plasma spray methods, respectively, with a thickness ratio of 2:1 in the top and bond coats. The thicknesses of the top coat were 200 and 500 μm, and those of the bond coat were 100 and 250 μm. FTF tests were performed until 1140 cycles at a surface temperature of 1100 ℃ for a dwell time of 5 min. TS tests were also done until more than 50 % delamination or 1140 cycles with a dwell time of 60 min. After the FTF for 1140 cycles, the interface microstructures of each TBC exhibited a sound condition without cracking or delamination. In the TS, the TBCs of 200 and 500 μm were fully delaminated (> 50 %) within 171 and 440 cycles, respectively. These results enabled us to control the thickness of TBC systems and to propose an efficient coating in protecting the substrate in cyclic thermal exposure environments.

Keywords:thermal barrier coating;coating thickness;electron beam-physical vapor deposition;cyclic thermal exposure;thermal durability

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[Referenced By]

[Related Articles]

[1] Tsipas SA, Golosnoy IO, J. European Ceram. Soc., 31, 2923 (2011)

[2] Lee PH, Lee SY, Kwon JY, Myoung SW, Lee JH, Jung YG, Cho H, Paik UG, Surf. Coat. Technol., 205, 1250 (2010)

[3] Ratzer-Scheibe HJ, Schulz U, Krell T, Surf. Coat. Technol., 200, 5636 (2006)

[4] Sridharan S, Xie L, Jordan EH, Gell M, Murphy KS, Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process., 393, 51 (2005)

[5] Nicholls JR, Lawson KJ, Johnstone A, Rickerby DS, Surf. Coat. Technol., 151, 383 (2002)

[6] Peichl A, Beck T, Vohringer O, Surf. Coat. Technol., 162, 113 (2003)

[7] Thery PY, Poulain M, Dupeux M, Braccini M, Surf. Coat. Technol., 202, 648 (2007)

[8] Vaßen R, Jarligo MO, Steinke T, Mack DE, Stover D, Surf. Coat. Technol., 205, 938 (2010)

[9] Vassen R, Stuke A, Stover D, J. Therm. Spray. Technol., 18, 181 (2009)

[10] Sidhu TS, Prakash S, Agrawal RD, Surf. Coat. Technol., 204, 172 (2009)

[11] Lawn BR, Fracture of Brittle Solids, 2nd ed., Cambridge U. P., Cambridge, England (1993).

[12] ASTM Standards C633-79, American Society of Testing and Materials, Philadelphia, USA.

[13] Tsantrizes PG, Kim GE, Brezinski TA, AGARD SMP Meeting on Thermal Barrier Coatings, Aalborg, Denmark, Communication Group Inc., Canada (1997).

[14] Panda PK, Kannan TS, Dubois J, Olangnon C, Fantozzi G, Sci. Technol. Adv. Mater., 3, 327 (2002)

[15] Knight R, Zhangxiong D, Kim EH, Smith RH, in 15th International Thermal Spray Conference (May 1998), (ASM Thermal Spray Society, Nice, France, 1998) p. 28-29.

[16] Rabiei A, Evans AG, Acta Mater., 48, 3963 (2000)

[17] Schlichting KW, Padture NP, Jordan EH, Gell M, Mater. Sci. Eng. A-Struct. Mater. Prop. Microstruct. Process., 342, 120 (2003)

[18] Sohn YH, Lee EY, Nagaraj BA, Biederman RR, Sisson RD, Surf. Coat. Technol., 146-147, 132 (2001)

[19] Tsui YC, Clyne TW, Thin Solid Films, 306(1), 23 (1997)

[20] Eriksson R, Brodin H, Johansson S, Ostergren L, Li XH, Surf. Coat. Technol., 205, 7 (2011)

[21] Lima CRC, Guilemany JM, Surf. Coat. Technol., 201, 4694 (2007)