Depth prediction of GFRP composite using long pulse thermography
Author:
Publisher
Elsevier BV
Reference35 articles.
1. Quantitative non-destructive evaluation of CFRP delamination defect using laser induced chirp-pulsed radar photothermal tomography;Wang;Opt. Lasers Eng.,2022
2. Optimization of Thermal-Wave Radar Thermography by Transverse Heat Flow Suppression Technique for Accurate Defect Detection of CFRP Laminates;Wang;IEEE Trans. Instrum. Meas.,2021
3. The Feature Recognition of CFRP Subsurface Defects Using Low-Energy Chirp-Pulsed Radar Thermography;Wang;IEEE Trans. Ind. Inf.,2020
4. Progress and Trends in Non-destructive Testing for Thermal Barrier Coatings Based on Infrared Thermography: A Review;Zhu;J. Nondestr. Eval.,2022
5. Inverse methodology for identification the thermal diffusivity and subsurface defect of CFRP composite by lock-in thermographic phase (LITP) profile reconstruction;Junyan;Compos. Struct.,2016
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