Friction stir welding (FSW) is a solid-state joining process that works by plunging a rotating non-consumable tool into the interface between two work pieces. As the tool is moved along the interface, the frictional heat generated causes the material to heat-up and soften. The rotating tool then mechanically mixes the softened material to produce a solid-state bond.
Friction stir welding offers many advantages over fusion-based joining processes, especially when joining aluminium alloys:
• The material remains in the solid-state, avoiding many of the defects associated with melting and solidification during fusion welding, such as pores and solidification cracks.
• The peak temperatures are lower, leading to reduced distortion and shrinkage.
• FSW is capable of joining many ‘non-weldable’ aluminium alloys, namely from the 2xxx and 7xxx series.
• It is a fully automated process, making the process highly repeatable.
• It is energy efficient.
Overall, FSW is a major breakthrough due to its substantial advantages over other techniques for welding aluminium alloys. However, despite its merits FSW use is limited due to the potential for ‘kissing bond’ defects. Kissing bonds, more commonly known in the friction stir weld community, as as unbonded joint remnants originate from an incorrectly broken and stirred fusion face, which leaves a residual layer of oxide in a plane parallel to the weld. This flaw is fully bonded and microscale in nature and still provides some mechanical strength. However, kissing bonds reduce the stress-load resilience of FSW materials and are extremely difficult to detect using conventional Non-Destructive Testing (NDT) methods.
The FrictionHarmonics project has developed the ‘KiScan’ inspection system for the detection of kissing bonds in friction stir welds, it incorporates:
• Bespoke Non-linear Ultrasonic Testing (NLUT) software, which utilises advanced signal processing algorithms.
• Specially designed ultrasonic probes, wedges and probe holders.
• A custom-built scanner for rapid automated inspection of flat and curved surfaces.
Advantages of the Kiscan system include:
• Reliable detection of kissing bonds (greater than 0.6mm in length).
• Rapid automated inspection (up to 10mm/second).
• User-friendly operation.
• Simple ‘traffic light’ interpretation of inspection results.
• More advanced inspection analysis methods for NDT specialists.