Abstract: Method is provided for determining the extent of defects, in particular of crack depths, in a test specimen. At least one transmitting transducer excites sound waves in the ultrasonic range, and the sound waves propagate in the form of a sound beam. The acoustic axis of the sound beam preferably forms an angle the normal to a surface of the test specimen facing the transmitting transducer. The sound waves couple into the test specimen obliquely and are reflected in particular in a V-shaped manner at a preferably outer interface of the test specimen. At least one receiving transducer spaced apart from the transmitting transducer receives the sound waves reflected at the interface of the test specimen. By means of an evaluation unit, an extent of a defect arranged within a sound path is determined from a reduction of the amplitude of the sound waves received by the receiving transducer.

Abstract: Method is provided for determining the extent of defects, in particular of crack depths, in a test specimen. At least one transmitting transducer excites sound waves in the ultrasonic range, and the sound waves propagate in the form of a sound beam. The acoustic axis of the sound beam preferably forms an angle the normal to a surface of the test specimen facing the transmitting transducer. The sound waves couple into the test specimen obliquely and are reflected in particular in a V-shaped manner at a preferably outer interface of the test specimen. At least one receiving transducer spaced apart from the transmitting transducer receives the sound waves reflected at the interface of the test specimen. By means of an evaluation unit, an extent of a defect arranged within a sound path is determined from a reduction of the amplitude of the sound waves received by the receiving transducer.