@article{39f9e405a1934850983b866beb811e66,
title = "Detection of Delaminations in Concrete Plates Using a Laser Ablation Impact Echo Technique",
abstract = "This study investigates the non-destructive detection of delaminations in concrete plates using non-contact laser ablation, instead of the conventional hammer excitation, as part of the impact echo method. We performed tests on five concrete specimens of different sizes, two of which contained artificial delaminations. A range of steel ball hammers was used as reference impulse sources, the responses of which were compared with wave excitation generated by a 7 ns pulsed 1064 nm Nd:YAG laser with 150 mJ pulse energy. Signals were recorded by surface-mounted accelerometers and two contactless methods: microphones and a laser Doppler vibrometer. The laser generates frequencies across a broad range of frequencies (0 to 150 kHz) but with much less energy than the hammers' narrower frequency spectra; the laser pulse energy transferred into the specimen is 0.07 mJ, corresponding to about 0.5 ‰ of the impulse source energy. Because of this, the thick intact plates' characteristic thickness stretch resonance frequency can be reliably detected by the hammer excitations but not when using laser excitation. However, the laser can excite low-frequency flexural vibration modes over a shallow delamination at 3 cm depth. The low-frequency flexural vibration results are verified by numerical natural frequency analysis.",
keywords = "Concrete testing, Defect detection, Impact echo, Lamb waves, Non-destructive testing, Vibration",
author = "Scherr, {Johannes F.} and Jochen Kollofrath and Popovics, {John S.} and Benjamin B{\"u}hling and Grosse, {Christian U.}",
note = "Open Access funding enabled and organized by Projekt DEAL. This work was funded by the funding program {"}Central Innovation Program for small and medium-sized enterprises (SMEs){"} of the Federal Ministry for Economic Affairs and Energy in Germany under Grant Agreement No 4561201 and the International Graduate School of Science and Engineering (IGSSE) of the Technical University of Munich (Project Team 14.02). The work reported in this manuscript is supported by the TUM International Graduate School of Science and Engineering (IGSSE). The authors are thankful for the valuable contributions of Sebastian M{\"u}nchmeyer, an electrical engineer at the institute, who built the laser platform and installed the laser safety measures. Further, we are grateful for the valuable contributions of the project partners at BERNARD Ingenieure GmbH, namely, Dr. Sonja Dallinger and Jost Mazur as well as Dr. Dirk P{\"u}schel from Soundtec GmbH. The authors would like to thank the German Federal Ministry for Economic Affairs and Energy for funding the project under grant number 4561201. The work reported in this manuscript is supported by the TUM International Graduate School of Science and Engineering (IGSSE). The authors are thankful for the valuable contributions of Sebastian M{\"u}nchmeyer, an electrical engineer at the institute, who built the laser platform and installed the laser safety measures. Further, we are grateful for the valuable contributions of the project partners at BERNARD Ingenieure GmbH, namely, Dr. Sonja Dallinger and Jost Mazur as well as Dr. Dirk P{\"u}schel from Soundtec GmbH. The authors would like to thank the German Federal Ministry for Economic Affairs and Energy for funding the project under grant number 4561201.",
year = "2023",
month = mar,
doi = "10.1007/s10921-022-00921-x",
language = "English (US)",
volume = "42",
journal = "Journal of Nondestructive Evaluation",
issn = "0195-9298",
publisher = "Springer New York",
number = "1",
}