Flying_Spot_Parabolic_Method

Version 1.1 (3,08 MB) von I2M

Estimation of in-plane thermal diffusivities fields for a point-like source used as thermal excitation and IR camera as Temperature sensor

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A novel thermal non-destructive technique based on a Pulsed Flying Spot is presented here by considering in-plane logarithmic processing of the relaxing temperature field around the heat source spot. Recent progress made in optical control, lasers, and infrared cameras permits the acquisition of 2D temperature fields and localized thermal excitation on a small area instead of the entire recorded image. This study focuses on a new method based on spatial logarithm analysis of a temperature field to analyse and measure different parameters, such as the in-plane thermal diffusivity and localization of the spot. In this paper, this method is presented and the first results of heterogeneous anisotropic materials are depicted. The in-plane thermal diffusivity is estimated with an error lower than 4%, and the initial location of the heating spot is determined.

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I2M (2024). Flying_Spot_Parabolic_Method (https://www.mathworks.com/matlabcentral/fileexchange/80005-flying_spot_parabolic_method), MATLAB Central File Exchange. Abgerufen27. November 2024.

Gaverina, L., et al. “Pulsed Flying Spot with the Logarithmic Parabolas Method for the Estimation of in-Plane Thermal Diffusivity Fields on Heterogeneous and Anisotropic Materials.” Journal of Applied Physics, vol. 121, no. 11, AIP Publishing, Mar. 2017, p. 115105, doi:10.1063/1.4978919.

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Sommier, A., et al. “Coupling Pulsed Flying Spot Technique with Robot Automation for Industrial Thermal Characterization of Complex Shape Composite Materials.” NDT & E International, vol. 102, Elsevier BV, Mar. 2019, pp. 175–79, doi:10.1016/j.ndteint.2018.11.011.

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Version	Veröffentlicht	Versionshinweise
1.1	9. Sep 2020	MacOs compatible	Herunterladen
1.0	9. Sep 2020		Herunterladen

MLA	Gaverina, L., et al. “Pulsed Flying Spot with the Logarithmic Parabolas Method for the Estimation of in-Plane Thermal Diffusivity Fields on Heterogeneous and Anisotropic Materials.” Journal of Applied Physics, vol. 121, no. 11, AIP Publishing, Mar. 2017, p. 115105, doi:10.1063/1.4978919.
APA	Gaverina, L., Batsale, J. C., Sommier, A., & Pradere, C. (2017). Pulsed flying spot with the logarithmic parabolas method for the estimation of in-plane thermal diffusivity fields on heterogeneous and anisotropic materials. Journal of Applied Physics, 121(11), 115105. AIP Publishing. Retrieved from https://doi.org/10.1063%2F1.4978919
BibTeX	@article{Gaverina_2017, doi = {10.1063/1.4978919}, url = {https://doi.org/10.1063%2F1.4978919}, year = 2017, month = {mar}, publisher = {{AIP} Publishing}, volume = {121}, number = {11}, pages = {115105}, author = {L. Gaverina and J. C. Batsale and A. Sommier and C. Pradere}, title = {Pulsed flying spot with the logarithmic parabolas method for the estimation of in-plane thermal diffusivity fields on heterogeneous and anisotropic materials}, journal = {Journal of Applied Physics} }

MLA	Sommier, A., et al. “Coupling Pulsed Flying Spot Technique with Robot Automation for Industrial Thermal Characterization of Complex Shape Composite Materials.” NDT & E International, vol. 102, Elsevier BV, Mar. 2019, pp. 175–79, doi:10.1016/j.ndteint.2018.11.011.
APA	Sommier, A., Malvaut, J., Delos, V., Romano, M., Bazire, T., Batsale, J. C., Salazar, A., et al. (2019). Coupling Pulsed Flying Spot technique with robot automation for industrial thermal characterization of complex shape composite materials. NDT & E International, 102, 175–179. Elsevier BV. Retrieved from https://doi.org/10.1016%2Fj.ndteint.2018.11.011
BibTeX	@article{Sommier_2019, doi = {10.1016/j.ndteint.2018.11.011}, url = {https://doi.org/10.1016%2Fj.ndteint.2018.11.011}, year = 2019, month = {mar}, publisher = {Elsevier {BV}}, volume = {102}, pages = {175--179}, author = {A. Sommier and J. Malvaut and V. Delos and M. Romano and T. Bazire and J.C. Batsale and A. Salazar and A. Mendioroz and A. Oleaga and C. Pradere}, title = {Coupling Pulsed Flying Spot technique with robot automation for industrial thermal characterization of complex shape composite materials}, journal = {{NDT} {\&} E International} }

Flying_Spot_Parabol​ic_Method