TWI Digital Library

A friction stir spot welding (FSSW) process was employed to fabricate dissimilar joints between an AA 5754 aluminium alloy and an AZ31 magnesium alloy in a lap joint configuration using a Zn layer at the interface to suppress intermetallic formation…

In order to understand the complex interactions between deformation, recrystallisation and precipitation induced during friction stir welding, two aluminium alloys were studied: a work hardened 5251-O alloy (Al, 2.2%Mg) and a precipitation hardened …

Friction stir welding trials, comprising double-sided butt welding of plates of thickness 10-11 mm, were conducted to investigate the weldability of copper and its alloys and to determine the correct process parameters (welding and rotation speeds) …

A computational fluid dynamics package, FLUENT, was used to model the viscous material flow during friction stir welding using two- and three-dimensional tool shapes. Two approaches were used to describe the viscosity. The first approach interpolate…

The friction stir welding of lap joints of aluminium alloy 6061 sheet of 3 mm thickness was monitored using a variety of sensors, to establish systems for weld quality control. A triaxial dynamometer measured the forces on the workpiece in three per…

A discussion is presented on the development of a FSW process for the welding of thin gauge aluminium alloy lap joints in the fuselage and wing sections of the Eclipse 500 twin-engine jet aircraft. The issues of pin tool geometry for use on lap join…

The effects of friction stir welding (FSW) on the corrosion resistance of aluminium alloys 2014A and 7075, both welded in the peak aged T651 condition, were studied. The effects of postweld heat treatment (retrogression and reageing treatment) were …

Friction stir welding (FSW) was applied to the 10 mm thick plate for the Fe-Mn-Si (FMS) alloy using a polycrystalline cubic born nitride (pcBN) tool. The sound FSW joint was obtained without macro-defects although small pores were slightly distribut…

Very high speed (10m/min [394 ipm]) friction stir welding (FSW) was demonstrated in both 2 mm thick AA6061-T6 and AA5051-H32. For AA6061-T6, weld parameters of 2,025 kg (4,500 lbs.) at 10,000 rpm and for AA5052-H32 weld parameters of 1,665 kg (3,700…

The effects of stir rod angle (0-3 degrees), rotation speed (500-2500 rpm) and travel speed (1-8 mm/s) on metal flow in friction stir welds in pure aluminium (A-1100) and an Al-0.5%Mg alloy (A-5005) were studied. The microstructure, hardness and ten…

The development of robots, tools and control systems for three-dimensional friction stir welding of aluminium alloy plate up to 10 mm thickness is described. Robots have been developed with a triangulated arm construction, which provides the necessa…

Shipbuilding applications of friction stir welding in the production of prefabricated aluminium alloy sections are described. Panels of up to 13 x 16 m, thickness 3-7 mm, may be produced with close tolerances and good surface finish, reducing cost a…

In relation to the application of ferritic/martensitic steels as cladding and duct materials in advanced nuclear reactors, an investigation is presented into the friction stir welding of P91 high alloy steel (0.11%C, 0.45%Mn, 8.41%Cr, 0.96%Mo) plate…

A techno-economic assessment study was undertaken with respect to the feasibility of the friction stir welding (FSW) technique for microalloyed DH36 grade shipbuilding steel (0.11%C, 1.48%Mn, 0.02%Nb, 0.02%Al) plates (thickness 6 mm). Single sided f…

The optimal conditions for the friction stir welding of high-N-containing austenitic stainless steel were evaluated. The influence of heat input (welding speed (50-400 mm/min)) on the surface appearance, macrostructure, microstructure, hardness, yie…

Numerical modelling and experimental measurements were undertaken to investigate the extension and microstructure of the HAZ during friction stir welding (FSW) of 7075 aluminium alloy (Al, 5.86%Zn, 2.37%Mg, 1.91%Cu) thin sheets (thickness 1.2 mm). W…

Process force and discontinuity models were derived to estimate the forces observed in friction stir welding (FSW) in order to develop a method of detecting discontinuities during FSW using physics-based process modelling. FSW welded joints with and…

Single run friction stir welding (FSW) experiments were undertaken on plate specimens (thickness 6 mm) of 7A60-T6 aluminium alloys (Al, 8.89%Zn, 2.74%Mg, 2.26%Cu) and the relationship between process parameters, microstructure and mechanical propert…

A comparative investigation was undertaken of MIG and friction stir welding of AW 6082-T6 alloys (Al, 0.63%Mg, 0.84%Si, 0.71%Mn) for marine applications such as structural panels in pontoons, and the welded joint microstructure and mechanical proper…

A review of an experimental study of friction stir welded (FSW) 5456-H1 16 aluminium plate of 19 mm thickness, is presented and the formation of a pre-rotation defect and its effect on the mechanical properties of welds is discussed. Welds were made…