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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: One-dimensional geometry
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Heater/sensor of C-Therm® TCi Thermal Analyzer with Pt spiral at the origin x = 0. The sample is placed on top. In the test case, a thick Pyrex backing is placed on top of the sample.
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Laplace transformed temperature distribution
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Laplace transformed temperature Θ(s,0), geometric series expansion Θm(s,0), and rational approximation Θ̃(s,0) at zero depth multiplied by s3/2
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Temperature evolution in thermal effusivity measurement of 0.1 mm thick PC
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Absolute maximum temperature error versus the computational work, i.e., number of function evaluations for the test case
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Absolute truncation and approximation error of the temperature at the origin x = 0 for the test case. Figure 4 shows the Laplace transformed counterpart.
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Absolute temperature error (K) of series expansion (19) compared to an accurate 1DT Comsol numerical model including the overglaze and water interlayers
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Relative heating rate error of series (19), approximation (22), and the asymptotic approximation in Ref. [5] and asymptote (1), compared to an accurate 1DT Comsol numerical model including the overglaze and water interlayers for 1 s measurement time
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Absolute relative estimation bias of the thermal effusivity due to series (19). The absolute relative measurement accuracy of the thermal effusivity of 56 samples is marked by ○. The outlier is a 2 cm thick SrTiO3 sample.
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Date of download: 10/20/2017 Copyright © ASME. All rights reserved. From: Temperature Solution for Transient Heat Conduction in a Thin Bilayer Between Semi-Infinite Media in Thermal Effusivity Measurement J. Heat Transfer. 2016;138(5): doi: / Figure Legend: Repeatability of 16 thermal effusivity repeat measurements elaborated by the series (19) or by the asymptotic approximation in Ref. [5] versus the thermal thickness of 56 samples. Lines are cubic Padé fits.
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