The PHAsis.one manual inspection device by VOGT Ultrasonics was developed for the precise testing of resistance-welded spots. It is suitable for the inspection of welded steel or aluminium sheets with a single sheet thickness from 0.7 to 5 mm.
The rapid testing of resistance-welded spots, independent of defined test plans, is the subject of the “Free Testing”. Creating task-oriented test plans requires comprehensive information about the component to be tested and its possible weak points. The PHAsis.one ultrasonic inspection device is the ideal tool for testing in the laboratory and in production.
The PHAsis.one manual testing device by VOGT Ultrasonics was developed for precise testing of resistance-welded spots. It’s ideally suited for the inspection of 2- or 3-layer joints with a single sheet thickness of 0.7 – 5.0 mm. 121 ultrasonic elements in an 11 x 11 matrix grant for a physical resolution more precise than 0.35 mm for the inspection of the nugget diameter. The generated cross section of the spot weld with colored depth imaging of the welded areas shows defects such as pores or a nugget that is too small.
In the “Free Testing” mode, spot welds can be testes according to the motto “Quickly check the spot welds of component XY”. The test personnel can either freely set all parameters – which requires ultrasonic inspection know-how – or access stored data sets; in this case he only has to select the material and the material thickness in the device menu. If not known, the individual sheet thickness can be determined directly with the wall thickness measuring function of the system.
To prepare a test plan, all spots welds of a component are often tested manually in an optimized sequence. The “Free Testing” mode is an ideal tool for this, because all data, sequences and results can be saved and transferred to a new test plan. With the PHAsis.manager software, a test plan for a subsequent serial testing can be created on the PC based on the data obtained. The user-friendly PHAsis.device test and evaluation software optically supports the user in the ideal alignment of the probe and thus contributes to measuring reliability.