TWI Digital Library

A friction stir welding (FSW) methodology, incorporating Taguchi quality engineering to optimise process parameters, was developed to fabricate a cold plate consisting of copper pipe embedded in the machined groove of a 6061 aluminium alloy base pla…

Several kinds of Co-based alloys with different mechanical properties (e.g. high temperature strength, hardness, wear resistance and gamma-solvus temperature) were designed for friction stir welding (FSW) tool applications by varying chemical compos…

The results of quality assessments, based on visual examination, mechanical testing, analysis of weld structures and hardness testing, of both similar and dissimilar friction stir welded (FSW) joints of aluminium casting alloys EN AC-42100, EN AC-43…

In relation to the development of corrosion barrier capsules for spent nuclear fuel disposal, friction stir welding experiments were conducted on oxygen-free copper plate specimens (thickness 20 mm) using different joint preparation, shielding gas a…

3-point fatigue bending tests and finite element method simulations were employed to study the fatigue performance of combined lap-butt joints fabricated by friction stir welding in 6005A-T6 alloy (Al, 0.61%Si, 0.54%Mg) extruded profiles for railway…

Two 3D numerical simulation models were employed to investigate the relationship between forces and torques during high-speed friction stir welding (FSW) with respect to mechanistic defect development owing to process parameter variations, and the t…

To assess the feasibility of friction stir welding of Ti-6Al-4V alloy (thickness 5 mm), appropriate pin tool material and processing parameters were determined, thermal and environmental management systems were tested, and both A- and B-basis design…

Square butt welds of AA 7075-T6 sheet (thickness 1.3 or 3.2 mm) to AA 7075-T6 extrusions were fabricated by friction stir welding (FSW) procedures incorporating the controlled introduction of defects, and the impact of the defects on joint mechanica…

Fatigue crack initiation and propagation was studied in friction stir welded aluminium alloy 7010-T7651 and also in the parent alloy, using a combination of theoretical and experimental techniques. Finite element analysis was used to model the stres…

With regard to the fabrication of closure welds for used fuel containers, a series of experiments was undertaken to demonstrate the feasibility of creating defect-free partial penetration welds by friction stir welding (FSW) in A516 Grade 70 steel (…

Friction stir welding was employed to fabricate welded joints in AA 7475-T7351 aluminium alloy plates (thickness 6.35 mm) and the effect of kissing bond defects on fatigue life and other mechanical properties was investigated. Welded test specimens …

An economic analysis was undertaken to compare the costs of onshore and offshore pipeline construction scenarios for welds made using friction stir welding (FSW) and conventional mechanised MIG/MAG welding. Pipe diameters of 1067 and 305 mm were sel…

A hybrid welding system called ultrasound supported friction stir welding was developed to mitigate the strength reducing effects of brittle intermetallic phase layers and was applied to the fabrication of dissimilar joints between wrought aluminium…

Models to predict the precipitate and grain size evolution in AA7449 aluminium alloy friction stir welds are presented and compared with experimental data. Bead on plate welds on 3.2 mm thickness sheets of composition Al, 8.4%Zn, 2.1%Mg, 1.8%Cu were…

A comparative study was undertaken of three different machine types, a modified high payload robot, a CNC milling machine and an ESAB "SuperStir" FSW machine, in terms of their capability for FSW of various aluminium alloys using identical process p…

An experimental investigation was undertaken to examine how tool pin induced material flow and intermetallic growth conditions affect the formation of discontinuity during friction stir lap welding of dissimilar Al-Cu joints. The materials comprised…

A two-step modelling procedure, consisting of a thermo-fluid model and a thermo-mechanical model, was employed to predict temperature, flow and residual stress fields around the workpiece block, steel backing plate and tool in friction stir welding …

A thermal-pseudo-mechanical model, based on the use of material temperature-dependent yield stress as the driver for heat input, was proposed for heat generation in friction stir welding, and simulation results were compared with experimental temper…

Butt joints were fabricated in sheet specimens of 2017A-T451 alloys (Al, 4.14%Cu) and cast plates of Al, 8.6%Si, 0.31%Mg by friction stir welding (FSW) and their microstructure and mechanical properties were investigated. Welding experiments were co…

Friction stir welding experiments were undertaken on 2195-T8 (Al, 3.99%Cu, 1.09%Li) alloy sheets (thickness 5 mm) and the weldability, microstructure and mechanical properties of the fabricated butt joints were investigated. Welding was performed us…