Köhler, B.B.KöhlerSchubert, F.F.SchubertHaupt, L.L.Haupt2022-03-102022-03-102007https://publica.fraunhofer.de/handle/publica/356885Laser vibrometer based contactless measurements of elastic wave fields at the surface of a concrete block excited by a mechanical impact are presented. The interaction of the waves with a grouted duct is investigated. Numerical simulations of the same situation provide wavefront snapshots, which show similarities with the measurements concerning the primary wave field but also significant differences with regard to the wave-duct interaction. The latter result shows that the assumption of a perfectly bonded interface between duct wall and concrete matrix, as used in the simulation, is not realized in practice. It is assumed that this weak bonding significantly contributes to the detectability of grouted ducts and to the non-detectability of injection faults inside these ducts.enbonding processconcreteductechoelastic wavefault locationflaw detectionmechanical impactinterface phenomenameasurement by laser beamnumerical analysisultrasonic propagationvibration measurement620conference paper