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Pressure-Sensitive Paint Applied to Ice Accretions (1999)

Bencic, Timothy J.

In: CASI

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Publication Date: 2018-06-05

Description: Aircraft icing occurs when a plane flies through a cloud of supercooled water droplets. When the droplets impinge on aircraft components, ice starts to form and accumulate. This accumulation of ice severely increases the drag and lift of the aircraft, and can ultimately lead to catastrophic failures and even loss of life. Knowledge of the air pressures on the surfaces of ice and models in wind tunnels allows researchers to better predict the effects that different icing conditions will have on the performance of real aircraft. The use of pressure-sensitive paint (PSP) has provided valuable information on similar problems in conventional wind tunnel testing. In NASA Lewis Research Center Icing Research Tunnel, Lewis researchers recently demonstrated the world s first application of PSP on actual ice formed on a wind tunnel model. This proof-of-concept test showed that a new paint formulation developed under a grant by the University of Washington adheres to both the ice shapes and cold aluminum models, provides a uniform coating that preserves the detailed ice shape structure, and responds to simulated pressure changes.

Keywords: Aircraft Design, Testing and Performance

Type: Research and Technology 1998; NASA/TM-1999-208815

Format: application/pdf

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Use of Pressure Sensitive Paint for Diagnostics in Turbomachinery Flows With Shocks (2001)

Lepicovsky, Jan ; Bencic, Timothy J.

In: CASI

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Publication Date: 2019-07-13

Description: The technology of pressure sensitive paint (PSP) is well established in external aerodynamics. In internal flows in narrow channels and in turbomachinery cascades, however, there are still unresolved problems. In particular, the internal flows with complex shock structures inside highly curved channels present a challenge. It is not always easy and straightforward to distinguish between true signals and "ghost" images due to multiple internal reflections in narrow channels. To address some of the problems, investigations were first carried out in a narrow supersonic channel of Mach number 2.5. A single wedge or a combination of two wedges were used to generate a complex shock wave structure in the flow. The experience gained in a small supersonic channel was used for surface pressure measurements on the stator vane of a supersonic throughflow fan. The experimental results for several fan operating conditions are shown in a concise form, including performance map points, midspan static tap pressure distributions, and vane suction side pressure fields. Finally, the PSP technique was used in the NASA transonic flutter cascade to compliment flow visualization data and to acquire backwall pressure fields to assess the cascade flow periodicity. A summary of shortcomings of the pressure sensitive paint technology for internal flow application and lessons learned are presented in the conclusion of the paper.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2001-211111 , NAS 1.15:211111 , E-12958 , ISABE-2001-1142 , 15th International Symposium on Airbreathing Engines; Sep 02, 2001 - Sep 07, 2001; Bangalore; India

Format: application/pdf

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Depth-Selective Diagnostics of Thermal Barrier Coatings Incorporating Thermographic Phosphors (2003)

Bencic, Timothy J. ; Beshears, David L. ; Eldridge, Jeffrey I. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: Thermographic phosphors have been previously demonstrated to provide effective non-contact, emissivity-independent surface temperature measurements. Because of the translucent nature of thermal barrier coatings (TBCs), thermographic-phosphor-based temperature measurements can be extended beyond the surface to provide depth-selective temperature measurements by incorporating the thermographic phosphor layer at the depth where the temperature measurement is desired. In this paper, thermographic phosphor (Y2O3:Eu) fluorescence decay time measurements are demonstrated for the first time to provide through-the-coating-thickness temperature readings up to 1000 C with the phosphor layer residing beneath a 100-Fm-thick TBC (plasma-sprayed 8wt% yttria-stabilized zirconia). With an appropriately chosen excitation wavelength and detection configuration, it is shown that sufficient phosphor emission is generated to provide effective temperature measurements, despite the attenuation of both the excitation and emission intensities by the overlying TBC. This depth-selective temperature measurement capability should prove particularly useful for TBC diagnostics, where a large thermal gradient is typically present across the TBC thickness.

Keywords: Fluid Mechanics and Thermodynamics

Format: application/pdf

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Temperature Measurements of Thermal Barrier Coating Surfaces Using a Cr-Doped GdAlO3 Thermographic Phosphor (2013)

Bencic, Timothy J. ; Jenkins, Thomas P. ; Wolfe, Douglas E. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Aircraft Propulsion and Power

Type: GRC-E-DAA-TN13236 , International Conference on Advanced Ceramics and Composites (ICACC''14); Jan 25, 2014 - Jan 30, 2014; Daytona Beach, FL; United States

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Testing of a Microwave Blade Tip Clearance Sensor at the NASA Glenn Research Center (2009)

Roeder, James W. ; Hughes, Christopher E. ; Bencic, Timothy J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The development of new active tip clearance control and structural health monitoring schemes in turbine engines and other types of rotating machinery requires sensors that are highly accurate and can operate in a high temperature environment. The use of a microwave sensor to acquire blade tip clearance and tip timing measurements is being explored at the NASA Glenn Research Center. The microwave blade tip clearance sensor works on principles that are very similar to a short range radar system. The sensor sends a continuous microwave signal towards a target and measures the reflected signal. The phase difference of the reflected signal is directly proportional to the distance between the sensor and the target being measured. This type of sensor is beneficial in that it has the ability to operate at extremely high temperatures and is unaffected by contaminants that may be present in turbine engines. The use of microwave sensors for this application is a new concept. Techniques on calibrating the sensors along with installation effects are not well quantified as they are for other sensor technologies. Developing calibration techniques and evaluating installation effects are essential in using these sensors to make tip clearance and tip timing measurements. As a means of better understanding these issues, the microwave sensors were used on a bench top calibration rig, a large axial vane fan, and a turbofan. Background on the microwave tip clearance sensor, an overview of their calibration, and the results from their use on the axial vane fan and the turbofan will be presented in this paper.

Keywords: Aircraft Propulsion and Power

Type: E-16826 , 47th AIAA Aerosciences Conference; Jan 05, 2009 - Jan 08, 2009; Orlando, FL; United States

Format: application/pdf

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