In recent years there has been considerable interest in developing
photonic temperature sensors such as the Fiber Bragg gratings (FBG) as an
alternative to resistance thermometry. In this study we examine the thermal
response of FBGs over the temperature range of 233 K to 393 K. We demonstrate,
in hermetically sealed dry Argon environment, FBG devices show a quadratic
dependence on temperature with expanded uncertainties (k=2) of
≈500 mK. Our measurements indicate that the combined measurement
uncertainty is dominated by uncertainty in determining peak center fitting and
thermal ageing of polyimide coated fibers.
Functionally Graded Materials (FGMs) are used in a number of applications as a protective barrier to extreme environments. One such application of FGMs is to protect metal parts from high temperature environments. FGM coatings are plasma spray deposited onto surfaces of both simple and complex machined parts. Knowing the thermal conductivity of the FGM coating allows engineers to effectively develop high temperature designs with accurate estimates of heat transfer and thermal loading.In this study, a FGM made by Caterpillar, USA, was measured with our steady state thermal conductivity measurement apparatus. The sample measured is a 10 layer graded coating using a Metro* 461 bond coan4 to a Metco* 205 ceria-yittria stabilized zirconia, with a Ni-Co-Cr-Al-Y metal grading. Figure 1 shows a plot of the thermal conductivity (W/m*K) as a function of temperature (K) for this material. The sudden drop in thermal conductivity at approximately 1073K was totally unexpected
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