The quality assurance staff at Volkswagen Sachsen GmbH in Zwickau (Germany) have successfully relied on this innovative test method for several years. Working closely with InfraTec, they have developed tailored applications for their measurement tasks and gradually adapted them to the types of vehicles and specific local conditions. Specialists there test laser welds of body components with two- and three-plate connections. Since the integration of the modular production kit MPB in the factory in Saxony, the testing became even more comprehensive. Now, there are checked technologically more sophisticating welded seams at the test side in a fully automated way.
With this thermographic check, Sven Beier and his team can detect even the smallest details of car bodies. They examine and evaluate bodies and side panels of different vehicle types, which is not an easy task. After all, a single component can have up to 250 individual welds, depending on vehicle model. Performing the testing in a three-shift operation, up to 3,500 laser welds can quickly pass through this non-destructive inspection by the end of each day. Ralf Albrecht, head of quality assurance for car chassis, is especially pleased about the newfound freedom: "By automating the testing facility, the test throughput has been significantly increased and made more flexible."
The heart of this test system is the special flash head, developed jointly by Volkswagen and InfraTec, where in addition to the powerful flash lamp, a thermal imaging camera is also integrated. Designed to replace the previous standard flash heads, this new development enables both the so-called incident and transmitted light test. Sven Beier supervised the test system on site and is absolutely convinced of its unique combination of industry flash lamp and high-end thermographic camera ImageIR®: "With the new flash head construction, we reach significant greater life expectancy when compared to the previous solution." A car body group is tested using two special flash heads, mounted on powerful 7-axis robots. After the program starts, an automatic execution of all programmed test positions of a test sequence is carried out. The team, however, can change at any time in a subsection or test sequence to test single laser welds.
In active thermography, a defined trigger, high-energy flash sends a heat pulse to the laser weld to be tested. This creates a heat flow that causes a temperature change at the surface of the object. The lateral distribution of temperature change and the time course is recorded by a high-sensitivity, high-speed thermographic camera of the ImageIR® series. This creates a real-time sequence of infrared images and sends them to a PC, where they are stored. Flaws or defects lead to a change in heat flow and cause a characteristically altered temperature distributions on the component surface.