UDL-2M laser-ultrasonic defectoscope is designed for precise measurements of the speed of longitudinal ultrasonic waves in samples of various structural materials (metals, alloys, ceramics, plastics, composite materials) with one-sided access to the investigated object.
Automated five-axis laser ultrasound monitoring system is designed to control objects of complex geometry with surface tracking according to the CAD model.
Automated four-axis laser ultrasound monitoring system allows automated measurements on both flat and cylindrical/conic samples.
Automated three-axis laser ultrasound monitoring system allows automated measurements on both flat and cylindrical/conic small sizes samples.
Automated two-axis laser ultrasound monitoring system allows automated measurements on flat large areas with the implicit installation of a scanning system on a controlled object surface. Vacuum cups allows automated measurements of surfaces located at any angle.
Automated two-axis laser ultrasound monitoring system allows automated measurements along a single line on large flat surfaces and surfaces of small curvature in the case when the scanning system directly install on the surface of the controlled object. Vacuum cups allow automated measurements of surfaces located at any angle.
The transducer is used to determine the speed of a longitudinal acoustic wave with normal input of ultrasound waves.
A transducer with pitch-catch configuration (inclined input of an acoustic waves) is used to determine the subsurface longitudinal acoustic wave velocity.
Roller transducer is designed for manual or automated control of large flat surfaces.
Series of custom made transducers developed by the laboratory for individual customer tasks. The development of each transducer takes into account the acoustic and geometric features of the monitored objects. The use of custom made transducers (and measuring equipment) makes it possible to significantly expand the range of tasks to be solved.