TWI Digital Library

Friction stir welds in S355 carbon manganese steel plate of 12 mm thickness were characterised by microstructural studies and measurements of mechanical properties. A tungsten-rhenium alloy tool with a pin length of 7.5 mm was used, running at 400 r…

Friction stir welding was evaluated as a cheaper alternative to the use of fasteners for the joining of lap joints of the aluminium alloy 7075-T351 motor thrust frame of the Ariane 5 rocket. In initial trials to optimise the tool design for lap join…

The use of phased array ultrasonics for the detection of small defects in welds is described, and illustrated using a series of examples of friction stir welded aluminium alloy plate. Phased arrays use an array of ultrasonic elements pulsed with dif…

A discussion is presented on research being undertaken to evaluate friction stir welding (FSW) as a suitable method for joining Airbus aircraft wing structures made of 2000 and 7000 series aluminium alloys. Suitable FSW machines were developed and v…

An investigation was undertaken to explore the feasibility of welding baseline aerospace aluminium alloys along with additional constituents, such as coatings and a faying surface sealant, by the refill friction stir spot welding (RFSSW) technique a…

Spot welds were fabricated in DC01 mild steel and HC 420-LA high strength steel sheets (thickness 1 mm) by friction stir spot welding (FSSW) using various pinless tools and process parameters, and thermographic analysis together with microstructural…

The material point method based on NairnMPM software was employed to formulate a 2D model of elastoplastic material flow around a friction stir welding (FSW) tool probe and to examine 2D elastoplastic deformation and the frictional interaction at th…

3rd International Symposium, 27-28 Sep 2001, Poster Session, Paper 13

In order to develop a method for microjoining by friction stir welding (FSW), micro-FSW trials were conducted on Mg alloy AZ31 (2.97%Al, 0.83%Zn) thin sheets (0.4 mm thickness), and the welding performance was assessed. The micro-FSW system incorpor…

Local stress-strain curves were determined from an array of spherical indents on the cross-section of the joint of a friction stir welded (FSW) high strength aluminium alloy AA 2198 sheet, in order to characterise the mechanical properties of differ…

A review is presented of process development work undertaken with regard to a machine concept assessment and the realisation of a fully 3D-capable 5-axis parallel kinematic friction stir welding machine, a so-called pentapod, suitable for large and …

A three-dimensional thermomechanical model of the friction stir welding of aluminium alloy was developed, based on the finite element method, to predict temperature and stress distributions in the workpiece, residual stresses, and the stresses exper…

Artificial Intelligence algorithms based on machine learning approaches have recently found application in joining and welding, e.g., for the optimization of process parameters or the prediction of resulting mechanical properties. The importance of …

Friction stir spot welding experiments were conducted on dissimilar metal joints between AA5052 aluminium alloy and three kinds of zinc coated steel, and weldability analysis, microstructure observations and mechanical tests were undertaken. The coa…

The feasibility of friction stir welding TIMETAL 21S beta titanium in the annealed condition was investigated. The composition of the alloy is Ti, 14-16%Mo, 2.4-3.2%Nb, 2.5-3.5%Al, 0.15-0.25%Si, max.0.4%Fe, 0.11-0.17%O, max.0.05%C, max.0.05%N, max.0…

Microstructural examination and a root bend test were used to examine the results of friction stir welding in dissimilar welds of aluminium alloys A-5083 (Al, 4.5%Mg) and A-6N01 (Al, 0.6%Mg, 0.65%Si) of thickness 4 mm. Optimum welding parameters (to…

Butt welding experiments were undertaken to investigate the feasibility of joining a metal matrix composite (MMC), comprising an Al-10%Si matrix and 20 vol.% SiC particles, to an AA-6063-T5 alloy by friction stir welding (FSW). Optimum process param…

An algorithm and procedure for controlling process zone temperature during friction stir processing are presented. The approach is based on the correlation between weld zone temperature with spindle power. A simplified thermal balance model of the w…

Friction stir processing (FSP) experiments were undertaken to modify the microstructure of Ti-6%Al-4%V parent metal specimens, in both alpha/beta and beta processed conditions, and TIG weld overlays deposited onto Ti, 6%Al, 4%V alloy using matching …

The design of a polycrystalline cubic boron nitride friction stir welding tool, tool holder and machine for use with high melting temperature materials is described. A polycrystalline cubic boron nitride truncated cone tool tip, capable of working a…