TY - JOUR
TI - Infrared thermal imaging detection of debonding defects in carbon fiber reinforced polymer based on pulsed thermal wave excitation
AU - Bu Chi-Wu
AU - Zhao Bo
AU - Liu Tao
AU - Liu Guo-Zeng
AU - Liao Chang-Yu
AU - Tang Qing-Ju
JN - Thermal Science
PY - 2020
VL - 24
IS - 6
SP - 3887
EP - 3892
PT - Article
AB - The carbon fiber reinforced composite has been widely used in many fields of  the aviation industry due to the good resistance to fatigue damage, impact  resistance, and easy processing. Firstly, the pulse heat conduction model of  the carbon fiber reinforced composite is established, and the simulation  experiment is completed based on the customized specimen with the defects.  The influences of the thermal excitation power and pulse width on the defect  detection effect are analyzed and obtained. The total harmonic distortion  algorithm is used to process the experimental image sequence. The  simulation and experimental results are compared and analyzed to verify  their unity. It may provide the theoretical basis and empirical guidance  for the defect detection of the composite materials.