The applicability of 1D-quadrupole-model on the depth estimation of overload-induced delaminations is tested in this contribution. While classical 1D-methods like Pulsed Phase Transformation and Thermographic Signal Reconstruction determine the depth of a defect by one parameter, a two-layer quadrupole model provides two parameters: depth and thermal resistance. In addition, the convectional losses at the surfaces may be considered. The defect investigated is a large-scale delamination in glass fibre reinforced polymer generated by tension overload
Applying a Two-Layer Quadrupole Model for Quantitative Thermography at Overload-Induced Delaminations in GFRP / Müller, Jan P.; Dell'Avvocato, Giuseppe; Krankenhagen, Rainer. - In: PROCEEDINGS. - ISSN 2504-3900. - ELETTRONICO. - 27:1(2019). (Intervento presentato al convegno 15th International Workshop on Advanced Infrared Technology and Applications (AITA) tenutosi a Firenze, Italy nel September 17-19 , 2019) [10.3390/proceedings2019027040].
Applying a Two-Layer Quadrupole Model for Quantitative Thermography at Overload-Induced Delaminations in GFRP
Giuseppe Dell’AvvocatoInvestigation
;Rainer Krankenhagen
2019-01-01
Abstract
The applicability of 1D-quadrupole-model on the depth estimation of overload-induced delaminations is tested in this contribution. While classical 1D-methods like Pulsed Phase Transformation and Thermographic Signal Reconstruction determine the depth of a defect by one parameter, a two-layer quadrupole model provides two parameters: depth and thermal resistance. In addition, the convectional losses at the surfaces may be considered. The defect investigated is a large-scale delamination in glass fibre reinforced polymer generated by tension overload| File | Dimensione | Formato | |
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