Remote temperature measurement systems using fixed thermal cameras installed in special air-cooled housings and integrated shutter, supplied with specific software designed and developed for temperature control of foundry molds and for Industry 4.0 integration with the various devices in the island (Presses, Temperature Controllers, Lubrication Robots, Lubricators, MES).

Early fire detection systems using stationary thermal imaging cameras from various manufacturers, installed in special enclosures for outdoor and harsh environments, and specific software designed and developed for fire detection with reporting and sending alarms.

Remote temperature measurement systems using stationary thermal imaging cameras and specific software designed and developed for tracking and controlling temperatures in production of moving objects.

Shearography is a verification technique similar to holographic interferometry for providing information about the quality of different materials in nondestructive testing, strain measurement and vibration analysis.

It is an optical method that relies on surface deformation of the component under test from thermal stress and is widely used in aerospace, automotive and materials research.

OPTRION is a spin-off from the Liege Space Center, with the goal of making Shearography a viable, reliable and cost-effective solution so that it is accessible to many industries.

The solution born in the OPTRION labs is called “DEFINDER,” a shearography system that provides all the optics and laser in one portable, durable and lightweight package, and from a software application designed with the main mission of simplifying the process of shearographic image acquisition and analysis.

Edevis GmbH specializes in the development and sale of testing technologies for nondestructive materials testing based on imaging with active thermography. The highly qualified edevis team designs systems and devices for testing composite fiber structures, for crack testing in metal components, and for testing joint connections (welded connections, adhesive joints, etc.).

Automated test systems and laboratory test systems are available, supplied with specially developed test software for evaluating measurements.

With our thermography laboratory testing systems, we ensure safe and nondestructive testing. Typical applications of the testing systems range from fiber composites and composite materials with slower heat transport behavior to the inspection of thin layers and materials with high thermal conductivity to crack detection in nonmetallic and metallic materials with the detection of other material defects.

As a rule, high requirements are placed on testing with automated testing systems and systems. These requirements include rapid testing of components and materials combined with high detection sensitivity and the lowest pseudo-rejection rate. Using targeted and very efficient excitation techniques in conjunction with sophisticated machine learning algorithms, edevis creates a robust test system that is generally far superior to the manual testing process. The investment in such a system quickly pays for itself.