Measurement techniques to obtain accurate in situ synchrotron strain measurements of thermal barrier coating systems (TBCs) applied to hollow cylindrical specimens are presented in this work. The Electron Beam Physical Vapor Deposition coated specimens with internal cooling were designed to achieve realistic temperature gradients over the TBC coated material such as that occurring in the turbine blades of aeroengines. Effects of the circular cross section on the x-ray diffraction (XRD) measurements in the various layers, including the thermally grown oxide, are investigated using high-energy synchrotron x-rays. Multiple approaches for beam penetration including collection, tangential, and normal to the layers, along with variations in collection parameters are compared for their ability to attain high-resolution XRD data from the internal layers. This study displays the ability to monitor in situ, the response of the internal layers within the TBC, while implementing a thermal gradient across the thickness of the coated sample. The thermal setup maintained coating surface temperatures in the range of operating conditions, while monitoring the substrate cooling, for a controlled thermal gradient. Through variation in measurement location and beam parameters, sufficient intensities are obtained from the internal layers which can be used for depth resolved strain measurements. Results are used to establish the various techniques for obtaining XRD measurements through multi-layered coating systems and their outcomes will pave the way towards goals in achieving realistic in situ testing of these coatings.
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August 2013
Research Article|
August 12 2013
Synchrotron X-ray measurement techniques for thermal barrier coated cylindrical samples under thermal gradients
Sanna F. Siddiqui;
Sanna F. Siddiqui
1Department of Mechanical and Aerospace Engineering,
University of Central Florida
, Orlando, Florida 32816, USA
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Kevin Knipe;
Kevin Knipe
1Department of Mechanical and Aerospace Engineering,
University of Central Florida
, Orlando, Florida 32816, USA
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Albert Manero;
Albert Manero
1Department of Mechanical and Aerospace Engineering,
University of Central Florida
, Orlando, Florida 32816, USA
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Carla Meid;
Carla Meid
2
German Aerospace Center (DLR)
, Institute of Materials Research, 51147 Cologne, Germany
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Janine Wischek;
Janine Wischek
2
German Aerospace Center (DLR)
, Institute of Materials Research, 51147 Cologne, Germany
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John Okasinski;
John Okasinski
3X-Ray Science Division, Advanced Photon Source,
Argonne National Laboratory
, Argonne, Illinois 60439, USA
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Jonathan Almer;
Jonathan Almer
3X-Ray Science Division, Advanced Photon Source,
Argonne National Laboratory
, Argonne, Illinois 60439, USA
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Anette M. Karlsson;
Anette M. Karlsson
4
Cleveland State University, 2121 Euclid Avenue
, Cleveland, Ohio 44115, USA
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Marion Bartsch;
Marion Bartsch
2
German Aerospace Center (DLR)
, Institute of Materials Research, 51147 Cologne, Germany
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Seetha Raghavan
Seetha Raghavan
a)
1Department of Mechanical and Aerospace Engineering,
University of Central Florida
, Orlando, Florida 32816, USA
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a)
Electronic mail: seetha.raghavan@ucf.edu
Rev. Sci. Instrum. 84, 083904 (2013)
Article history
Received:
May 03 2013
Accepted:
July 22 2013
Citation
Sanna F. Siddiqui, Kevin Knipe, Albert Manero, Carla Meid, Janine Wischek, John Okasinski, Jonathan Almer, Anette M. Karlsson, Marion Bartsch, Seetha Raghavan; Synchrotron X-ray measurement techniques for thermal barrier coated cylindrical samples under thermal gradients. Rev. Sci. Instrum. 1 August 2013; 84 (8): 083904. https://doi.org/10.1063/1.4817543
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