Article: Influence of convective heat transfer on the AC temperature amplitude of a microheater on glass or polyimide substrate Journal: International Journal of Nanotechnology (IJNT) 2024 Vol.21 No.3 pp.140 - 147 Abstract: In this study, we address the impact of convective heat transfer on the measured thermal conductivity of a substrate when using the 3ω method. The conventional approach assumes negligible convective heat transfer by performing measurements in a vacuum chamber or by regarding the surface as adiabatic. However, if the 3ω sensor is exposed to air during the measurement, the convective heat transfer in the air can significantly affect the measured thermal conductivity of the sample. The measurement error is known to depend on the ratio of thermal resistance of substrate conduction and surface convective heat transfer. To quantify this effect, we perform a computational fluid dynamic simulation. An Eagle XG glass or a polyimide substrate is considered as the substrate of the 3ω sensor. Temperature oscillation at the microheater is calculated depending on the frequency and amplitude of the convective heat transfer coefficient. By comparing the calculated results with the theoretical model considering only one-dimensional conduction heat transfer, we assess the differences and analyse the measurement error of the substrate's thermal conductivity when neglecting the surface convective heat transfer. Inderscience Publishers - linking academia, business and industry through research

Title: Influence of convective heat transfer on the AC temperature amplitude of a microheater on glass or polyimide substrate

Authors: Chang-Ui Jeon; Ho-Sung Kim; Dong-Wook Oh

Addresses: Department of Mechanical Engineering, Chosun University, Gwangju, 61452, South Korea ' Department of Mechanical Engineering, Chosun University, Gwangju, 61452, South Korea ' Department of Mechanical Engineering, Chosun University, Gwangju, 61452, South Korea

Abstract: In this study, we address the impact of convective heat transfer on the measured thermal conductivity of a substrate when using the 3ω method. The conventional approach assumes negligible convective heat transfer by performing measurements in a vacuum chamber or by regarding the surface as adiabatic. However, if the 3ω sensor is exposed to air during the measurement, the convective heat transfer in the air can significantly affect the measured thermal conductivity of the sample. The measurement error is known to depend on the ratio of thermal resistance of substrate conduction and surface convective heat transfer. To quantify this effect, we perform a computational fluid dynamic simulation. An Eagle XG glass or a polyimide substrate is considered as the substrate of the 3ω sensor. Temperature oscillation at the microheater is calculated depending on the frequency and amplitude of the convective heat transfer coefficient. By comparing the calculated results with the theoretical model considering only one-dimensional conduction heat transfer, we assess the differences and analyse the measurement error of the substrate's thermal conductivity when neglecting the surface convective heat transfer.

Keywords: 3ω method; convective heat transfer; thermal conductivity measurement; microheater; temperature oscillation.

DOI: 10.1504/IJNT.2024.137412

International Journal of Nanotechnology, 2024 Vol.21 No.3, pp.140 - 147

Published online: 18 Mar 2024 *

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Title: Influence of convective heat transfer on the AC temperature amplitude of a microheater on glass or polyimide substrate

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