Implementation of an Ultra-Bright Thermographic Phosphor for Gas Turbine Engine Temperature Measurements

Implementation of an Ultra-Bright Thermographic Phosphor for Gas Turbine Engine Temperature Measurements

The overall goal of the Aeronautics Research Mission Directorate (ARMD) Seedling Phase II effort was to build on the promising temperature-sensing characteristics of the ultrabright thermographic phosphor Cr-doped gadolinium aluminum perovskite (Cr:GAP) demonstrated in Phase I by transitioning towar...

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Bibliographische Detailangaben
Hauptverfasser: Eldridge, Jeffrey I., Bencic, Timothy J., Zhu, Dongming, Cuy, Michael D., Wolfe, Douglas E., Allison, Stephen W., Beshears, David L., Jenkins, Thomas P., Heeg, Bauke, Howard, Robert P., Alexander, Andrew
Format: Report
Sprache:eng
Schlagworte:
Aircraft Propulsion And Power
Atomic And Molecular Physics
Instrumentation And Photography
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Zusammenfassung:The overall goal of the Aeronautics Research Mission Directorate (ARMD) Seedling Phase II effort was to build on the promising temperature-sensing characteristics of the ultrabright thermographic phosphor Cr-doped gadolinium aluminum perovskite (Cr:GAP) demonstrated in Phase I by transitioning towards an engine environment implementation. The strategy adopted was to take advantage of the unprecedented retention of ultra-bright luminescence from Cr:GAP at temperatures over 1000 C to enable fast 2D temperature mapping of actual component surfaces as well as to utilize inexpensive low-power laser-diode excitation suitable for on-wing diagnostics. A special emphasis was placed on establishing Cr:GAP luminescence-based surface temperature mapping as a new tool for evaluating engine component surface cooling effectiveness.