Kulkarni, A.
, Goland, A.
, Herman, H.
, Allen, A.
, Ilavsky, J.
, Long, G.
, Johnson, C.
and Ruud, J.
(2004),
Microstructure-Property Correlations in Industrial Thermal Barrier Coatings, Journal of the American Ceramic Society, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=850690
(Accessed April 17, 2024)
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Microstructure-Property Correlations in Industrial Thermal Barrier Coatings
Published
Author(s)
A Kulkarni, A N. Goland, H Herman, , , , C A. Johnson, J A. Ruud
Abstract
This paper describes the results from multidisciplinary characterization/scattering techniques employed for the quantitative characterization of industrial thermal barrier coating (TBC) systems used in advanced gas turbines. While past requirements for TBCs primarily addressed the function of insulation/life extension of the metallic components, new demands necessitate a requirement for spallation resistance/strain tolerance, i.e., prime reliance, on the part of the TBC. In an extensive effort to incorporate these TBCs, a design-of-experiment approach was undertaken to develop coatings under varied processing conditions. Conventional plasma spray processing produces splat-based layered structures providing excellent thermal insulation; however, the lack of in-plane compliance leads to premature delamination failure during thermo-mechanical cycling under oxidative conditions. Efforts focusing on achieving such durable/high performance coatings led to Dense Vertically Cracked (DVC) TBCs, exhibiting quasi-columnar microstructures approximating electron beam physical vapor deposited (EB-PVD) coatings. This study involves comprehensive characterization of these coatings, to establish relationships between microstructure and properties in a systemataic manner.Citation
Journal of the American Ceramic Society
Volume
87
Issue
No. 7
Pub Type
Journals
Download Paper
Keywords
microstructure characterization, small angle scattering, strain tolerance, thermal barrier coatings, thermal conductivity
Citation
Created June 30, 2004, Updated October 12, 2021