Inspektion der Rührreibschweißnähte "Friction Stir Welding - FSW" mit Ultraschall Phased Arrays

General description of the application
The friction stir welding (FSW) technique was developed as a method to join materials that are difficult to fusion weld such as aluminum alloys. The quality of the obtained weld is very high, tests show that there are no pores in the weld and the material structure is uniform. However, the process may generate small, tight defects that are hard to detect.

The best method to inspect friction stir welds is to use the ultrasonic phased array technique. Because of the weld shape, raster scanning is impossible; but with phased arrays, inspection of the entire weld volume is done in a single-pass scan.

Phased arrays also permit lateral scanning to detect transverse defects. Optimization of the inspection angle maximizes the probability of detection. The increased number of zones covered by phased arrays provides accurate flaw sizing and location. High speed, accuracy, and versatility make phased arrays the choice technique for FSW inspection.

Typical inspection requirements

• Weld length: up to 40 feet
• Wall thickness: 3 to 15 mm (or more)
• Diameter range: 8 to 17 feet
• Material: aluminum (although this technology can be used on any material welded by FSW)
• Vertical or horizontal configuration
• Irregular weld shape hindering raster scanning
• Limited access space
• Coupling check required
• Fully automated inspection

Defects detected

• Lack of penetration
• Kissing bonds
• Wormholes
• Root toe defect
• Axial and transverse defects
• Porosity

• One probe on each side of the weld for axial detection, plus a third probe for transverse detection
• Motorized positioning of the probe (weld centering)
• Inspection with 65° SW and 45° SW for axial defects
• Inspection with 45° SW refraction angle and skew angles of -30°, 0°, and 30° for transverse defects
• Electronic scanning of the beam for all configurations
• Whole inspection performed as a one-line scan (up to 70 feet)
• Coupling is performed with local immersion wedges

FOCUS 32:128, MCDU-02, and computer all enclosed in an air-conditioned cabinet

Analysis and reporting using TomoView software
All of R/D Tech ultrasound products, whether using phased array, ultrasound, or EMAT, share the same data acquisition and analysis software. The software is PC-based and can be used on standard PCs ranging from simple laptops to powerful multiprocessor workstations.

Data acquisition and analysis

• Software setup and control of the acquisition system
• Easy programming of focal laws for sector, linear, and depth scans as well as dynamic depth focusing
• Automatic volumetric settings
• Real-time display of A-scans, B-scans, C-scans, and D-scans
• Real-time display of phased array sector scans
• Real-time display of angle-corrected, top, side, and end views from either A-scan, C-scan, or peak data
• Real-time imaging with part drawing overlay
• Analysis may proceed simultaneously with data acquisition
• Measurement cursors and time-of---flight diffraction measurement tools
• Scanner control for automated inspections

ROVER with special adapter