Characterization of drilling damage in glass laminate composites using lock-in thermography nondestructive evaluation method: a feasibility study

ABSTRACT

The drilling of composite structure leads to its damage, near the peripheral areas of the drilled hole, due to the laminar structure of the composites. The goodness of a drilling process can be evaluated by measuring the extent of the damage caused by it. In the present study, lock-in thermography non-destructive inspection method is proposed to characterise the drilling damages in glass fiber–reinforced polymer panel. A semi-automated image processing methodology is proposed to calculate damage parameters, namely delamination area and size, and delamination factor. The effect of excitation frequency on the damage characterisation is studied to decide the optimum frequency range to measure the damage parameters through signal-to-noise ratio and damage visibility. The damage parameters are measured at optimum frequency. The study showed that the lock-in thermography technique has the potential to characterise drilling damage.

KEYWORDS:

• Drilling damage
• GFRP
• lock-in thermography
• nondestructive evaluation

Disclosure statement

No potential conflict of interest was reported by the author(s).

Data availability

Raw data were generated at the Center for Imaging Technologies, M S Ramaiah Institute of Technology. Derived data supporting the findings of this study are available from the corresponding author SD on request.