TWI Digital Library

Friction stir welds in austenitic stainless steels 316L (0.019%C, 0.87%Mn, 17.70%Cr, 12.19%Ni, 2.19%Mo) and 304 (0.040%C, 1.08%Mn, 18.10%Cr, 8.56%Ni); duplex stainless steel 329J4L (0.016%C, 0.78%Mn, 24.81%Cr, 7.27%Ni, 3.13%Mo, 0.43%Cu, 0.41%W); and…

A discussion is presented on developments in polycrystalline cubic boron nitride (PCBN) tool design for use in the friction stir welding of high temperature materials such as steels. Improvements in tool material grades, tool design and FSW equipmen…

The deformation microstructures formed during friction stir welding (FSW) of 7075-T6 aluminium alloy (Al, 5.76%Zn, 2.46%Mg, 1.32%Cu) were studied using SEM with electron back-scattered diffraction. The sheet thickness was 1.5 mm. The alloy was evalu…

Additive friction surfacing (AFS) is a variant of friction surfacing (FS) where multiple layers of feedstock material can be deposited to generate a near-net shape part. AFS has the potential to yield significantly higher deposition rates than tradi…

An integrated multi-physics model was employed to predict the temperature distribution, the post-weld grain size distribution and the local subgrain size distribution around the pin during friction stir welding (FSW) of 6061 aluminium alloys. The mu…

Metallographic observations, hardness distribution measurements and fatigue tests were undertaken to investigate the discontinuity state related to the crack nucleation site in butt joints fabricated in 2024-T3 aluminium alloys (Al, 3.8-4.9%Cu, 1.2-…

In relation to the application of friction stir welding (FSW) to the production of metallic aircraft fuselages, a report is presented into the evolution of the MUVAX (multi use vacuum assisted exoskeleton) concept within the framework of the LuFo V-…

An investigation is presented into a systematic model based, real time process monitoring framework to analyse the performance and behaviour of the friction stir welding (FSW) process and into the framework's ability to predict weld quality threshol…

The Taguchi method was employed to determine optimum process parameters for friction stir welding of dissimilar joints between AA 6061 (Al, 0.84%Mg, 0.54%Si, 0.4%Fe, 0.24%Cu) and AA 7075 (Al, 5.58%Zn, 2.28%Mg, 1.6%Cu) aluminium alloys. Welding was p…

Various dissimilar butt joints were fabricated between 2017A-T451 (Al, 4.14%Cu, 0.72%Mg), 6082-T6 (Al, 1.03%Mg, 0.92%Si) and AlSi9Mg (Al, 8.6%Si, 0.31%Mg) aluminium alloys by friction stir welding using a high pin tool rotational speed (1400 or 1800…

An investigation was undertaken to examine the use of an industrial serial robot incorporating dual loop force/position control to reduce the investment cost and increase process flexibility in friction stir welding (FSW) by compensating the lateral…

A pinless tool with involute grooves on its shoulder surface was designed to facilitate friction stir spot welding (FSSW) of 2024-T3 aluminium alloy (Al, 3.8-4.9%Cu, 1.2-1.8%Mg, 0.3-0.9%Mn) sheets (thickness 1.5 mm) and the influence of process para…

Models were developed for the temperature distribution and material flow during friction stir welding. Both friction and material shearing were presumed to generate heat, and finite element analysis was used to determine the temperature distribution…

The friction stir welding of chromium steel (12%Cr) and of the dissimilar combination of chromium steel with low carbon steel were investigated, and the process economics compared with those of MMA, MIG and submerged arc welding. Welds were made in …

Friction stir welding (FSW) is broadly recognized as an efficient solid-state welding technology to join light metal alloys and is worth considering expanding its technological benefits for joining materials with different chemical compositions and …