Friction Stir Welding

Clean Welding

FSW is a purely mechanical process. It is clean, ecological and produces weld seams of the highest quality, while it offers the further advantage of being suitable for joining dissimilar metallic materials and others that are difficult to weld by conventional fusion methods.

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Invented in 1991 at The Welding Institute (TWI) in the UK, Friction Stir Welding (FSW) is perhaps the most remarkable and potentially useful new welding technique to be introduced in the recent past. In the second half of the 1990s, the EADS corporate research laboratories at Suresnes and Ottobrunn (now called EADS Innovation Works) began evaluating this new process and acquired licenses from TWI to work on the process.

FSW is a purely mechanical process. It is clean, ecological and produces weld seams of the highest quality, while it offers the further advantage of being suitable for joining dissimilar metallic materials and others that are difficult to weld by conventional fusion methods. FSW is not restricted to sheets and plates: it can also weld tubes, tanks, T-joints and corner joints. The FSW process can utilize existing and readily available machine tool technology, it is suitable for automation and most recently has been made adaptable for use with robots.

The basic process is remarkably simple: frictional heat is generated by a fast-rotating, cylindrical and shouldered welding head with a profiled probe. The heat causes the material of the work pieces to soften into a plastic state without reaching the melting point. The tool is plunged into the two parts to be joined and the material is then stirred, or better, forged by the intimate contact of the probe and the tool shoulder. This produces a welded joint with a finer micro-structure than that of the parent material. The relatively low residual stresses and the fine-grained, stirred zone result in very good strength properties and good ductility, characteristics that are of key importance in aerospace applications.

As a rule, all extrudable aluminium materials can be welded, including wrought and cast aluminium materials, and even metal-matrix alloys. The process is also well suited for joining alloys of magnesium, copper and zink. The welding of steel and titanium has also been explored in the laboratory.

FSW applications in the future will include the capability to join other ‘unweldable’ aluminium alloys or promising aluminium/lithium compounds, as well as armor plate aluminium materials. The pieces to be welded need only rudimentary surface preparation and the process can within limits tolerate gaps and misalignment. This represents a major advantage when compared to fusion welding, which calls for special surface preparation. Welding filler metals or inert gas are also unnecessary.

The FSW process generates very little noise and does not emit smoke, dust, dangerous plasma or x-rays.Welding speeds vary between 100 to 2,000 mm/min, which is comparable to many fusion welding processes. Workpieces must be rigidly clamped and a strong backing bar is required. A keyhole remains at the end of each weld line.

Limitations of the process are being overcome and capabilities are being extended by intensive research and development. EADS Innovation Works have developed circumferential and curvilinear welding with different radii by applying advanced process options, such as the bobbin and retractable pin tools. Both eliminate some of the limitations of the original process: the bobbin shape does not require a backing bar, since all vertical force is exerted within the welding head itself, while the retractable pin tool enables the processing of materials of varying thickness and does not leave a keyhole at the end of the seam. With the welding tool mounted on an articulated robot, truly three-dimensional welding seams are possible with both techniques.

Rapid progress continues to be made in Friction Stir Welding and its associated technologies. New applications continue to emerge and the variety of materials that can be welded is increasing, as is the understanding of metallurgical and engineering aspects of the process. Joint activities with several business units are currently underway with the aim of introducing Friction Stir Welding into series production.

European Aeronautic Defence and Space Company EADS N.V.
Le Carré · Beechavenue 130-132 · 1119 PR Schiphol Rijk · The Netherlands

EADS Deutschland GmbH · 81663 Munich · Germany
EADS France S.A.S. · 37, boulevard de Montmorency · 75781 Paris Cedex 16 · France
EADS CASA · Ava. de Aragón, 404, 28022 Madrid · Spain