
handle: 20.500.11850/36154
Abstract A novel air-coupled ultrasound (ACU) 120 kHz normal transmission system enabled successful imaging of bonding and saw cut defects in multilayered glulam beams up to 280 mm in height with a signal-to-noise ratio (SNR) of 40 dB. The main wave propagation paths were modeled; quasi-longitudinal and quasi-transverse modes were coupled in each lamella and the sound field was found to be shifted from the insonification axis as a function of the ring angle, leading to interference of wave paths in the receiver and to 15 dB amplitude variability in defect-free glulam. The assessment was improved with spatial processing algorithms that profited from the arbitrary scanning resolution and high reproducibility of ACU. Overlapped averaging reduced in-band noise by 15 dB, amplitude tracking captured only the first incoming oscillation, thus minimizing diffraction around defect regions, and image normalization compensated 6 dB of systematic amplitude variability across the fiber direction. The application of ACU to in situ defect monitoring was demonstrated by using multiparameter difference imaging of measurements of the same sample with and without saw cut defects. The segmentation of the defect geometry was improved significantly and the amplitude variability was reduced by 10 dB. Further work is planned to model additional insonification setups and grain and density heterogeneities.
Glued laminated timber, Wood heterogeneity, Amplitude tracking, Saw cut defect, In situ flaw monitoring, Non-destructive evaluation, Ultrasound wave propagation, Bonding quality, Energy flux shift, Delamination, Non-contact ultrasonics, Multiparameter difference imaging, Air-coupled ultrasound, Air-coupled ultrasound; Amplitude tracking; Bonding quality; Delamination; Energy flux shift; Glued laminated timber; In situ flaw monitoring; Multiparameter difference imaging; Non-contact ultrasonics; Non-destructive evaluation; Saw cut defect; Spatial signal processing; Ultrasound wave propagation; Wood heterogeneity, Spatial signal processing
Glued laminated timber, Wood heterogeneity, Amplitude tracking, Saw cut defect, In situ flaw monitoring, Non-destructive evaluation, Ultrasound wave propagation, Bonding quality, Energy flux shift, Delamination, Non-contact ultrasonics, Multiparameter difference imaging, Air-coupled ultrasound, Air-coupled ultrasound; Amplitude tracking; Bonding quality; Delamination; Energy flux shift; Glued laminated timber; In situ flaw monitoring; Multiparameter difference imaging; Non-contact ultrasonics; Non-destructive evaluation; Saw cut defect; Spatial signal processing; Ultrasound wave propagation; Wood heterogeneity, Spatial signal processing
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