THERMAL SCIENCE

International Scientific Journal

Authors of this Paper

External Links

Qing-Ju Tang

,

Zhuo-Yan Gu

,

Hong-Ru Bu

,

Rui Xie

RESEARCH ON PULSE INFRARED THERMAL WAVE DETECTION TECHNOLOGY FOR HONEYCOMB SANDWICH STRUCTURE DEFECTS

ABSTRACT
Through the method of numerical simulation, the detection rules of different defect characteristics and the detection effect of detection process parameters on different defects were explored. The optimal detection process parameters for GFRP/NOMEX honeycomb sandwich structure specimens with delaminating, debonding, water accumulation, and glue plugging defects were obtained. Experimental research was carried out to verify its detection effect for actual tests. The result is that the technology under this parameter can get better defect detection effect.
KEYWORDS
honeycomb sandwich structure, pulse infrared thermal wave detection, simulation analysis
PAPER SUBMITTED: 2023-06-22
PAPER REVISED: 2023-08-21
PAPER ACCEPTED: 2023-11-22
PUBLISHED ONLINE: 2024-02-18
DOI REFERENCE: https://doi.org/10.2298/TSCI230622030T
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2024, VOLUME 28, ISSUE Issue 2, PAGES [1091 - 1099]
REFERENCES
  1. Tian, Y. P., et al., Detecting Water in Honeycomb Structure by Using Pulsed Phase Thermography (in Chinese), Infrared Technology, 28 (2006), 10, pp. 615-619
  2. Guo, X. W., et al., Study on Pulsed Thermography for Water Ingress Detection in Composite Honeycomb Panels (in Chinese), Acta Aeronautica et AstronauticaSinica, 33 (2012), 6, pp. 1134-1146
  3. Yang, F., Research on Infrared Thermal Wave Detection and Convolutional Neural Network Recognition of HSC Defects (in Chinese), M. Sc. thesis, Harbin Institute of Technology, Harbin, China, 2021
  4. Meola, C., et al., Non-Destructive Evaluation of Aerospace Materials with Lock-in Thermography, Engi­neering Failure Analysis, 13 (2006), 3, pp. 380-388
  5. Fang, W. M., Research on the Technology of GFRP/NOMEX Honeycomb Sandwich Structure Defects Detection Using Infrared Thermal Wave Testing Method (in Chinese), M. Sc. thesis, Heilongjiang Uni­versity of Science and Technology, Harbin, China, 2022
  6. Tang, Q. J., et al., Defect Detection of GFRP/Nomex Honeycomb Sandwich Structure by Linear Frequen­cy Modulation Infrared Thermal Imaging, Thermal Science, 25 (2021), 6B, pp. 4611-4619
  7. Tang, Q. J., et al., Defect Detection of GFRP Laminates by Barker Code Modulation Excitation Infrared Thermal Imaging, Thermal Science, 27 (2023), 1B, pp. 447-454
  8. Tashan, J, Al-Mahaidi R., Investigation of the Parameters That Influence the Accuracy of Bond Defect Detection in CFRP Bonded Specimens Using IR Thermography, Composite Structures, 94 (2012), 2, pp. 519-531
  9. Bu, C. W., et al., Infrared Thermal Imaging Detection of Debonding Defects in Carbon Fiber Reinforced Polymer Based on Pulsed Thermal Wave Excitation, Thermal Science, 24 (2020), 6B, pp. 3887-3892
  10. Tang, Q. J., Research on the Key Technology of SIC Coating Defects Detection Using Pulsed Infrared Thermal Wave Non-Destructive Testing Method (in Chinese), Ph. D. thesis, Harbin Institute of Technol­ogy, Harbin, China, 2014
  11. An, S. J., Research on Pulsed Infrared Thermal Wave Detection Technology for CFRP Laminate Defects (in Chinese), M. Sc. thesis, Heilongjiang University of Science and Technology, Harbin, China, 2023
PDF VERSION [DOWNLOAD]
Research on pulse infrared thermal wave detection technology for honeycomb sandwich structure defects

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence