TWI Digital Library

Annealed AISI 420 martensitic stainless steel (0.46%C, 0.3%Mn, 13.8%Cr) sheets (thickness 3 mm) were subjected to dry or wet friction stir processing (FSP) and the correlation between microstructure, hardness and process parameters was investigated.…

Friction stir welding (FSW) was conducted on high-strength pipe steel plates (thickness 12.7 mm) using commercially pure tungsten, tungsten-rhenium (W, 25%Re) and polycrystalline cubic boron nitride pin tools; mechanical properties of the welded joi…

With regard to the development of the MELD process (formerly, additive friction stir deposition) involving the deposition of feedstock material on a substrate via a hollow rotating tool, a mesh-free coupled thermomechanical approach called smoothed …

A method for incorporating local material property gradients across the weld zone in finite element simulations of friction stir welded 2139-T8 aluminium alloys was developed to predict the time evolution of strain. Local material flow stress was de…

Friction stir welding experiments were conducted on plate specimens (thickness 6 mm) of AA 2219 aluminium alloys (Al, 6.48%Cu, 0.32%Mn) and the crystallographic texture and deformation behaviour of the weld zones (HAZ, thermomechanically affected zo…

An analysis procedure was developed to relate the geometry and microstructure of lap configuration friction spot welds to the joints' mechanical behaviour. Using 2 mm thickness aluminium alloy AA 2024-T3 sheet as the basis for simulation, a three-di…

The material flow and microstructural evolution during friction stir processing of A356 cast alloy (Al, 7%Si, 0.3%Mg, 6.4 mm thickness) using tools of H13 tool steel were investigated. The deformation and microstructure in the stir zone were studied…

The material flow in dissimilar material friction stir welding (FSW) between AA 6063 alloy (Al, 0.5%Mg, 0.43%Si) and S45C carbon steel (0.43%C, 0.25%Si, 0.77%Mn) was investigated by determining the 3D forces acting on the welded joint and the intern…

The ScanStir framework, comprising an experimental friction stir welding (FSW) set-up, numerical models based on open source finite element method software packages, and a high performance computer, was used to simulate the residual stress profile i…

Samples of AA 2219 aluminium alloy (Al, 5.8-6.8%Cu, 0.2-0.4%Mn) produced by electron beam freeform fabrication (EBF3), a wire fed process for additive manufacturing, were joined by friction stir welding (FSW) and the microstructure and mechanical pr…

Using a pin tool made from relatively low cost metallic materials, including heat resistant alloys (e.g. Ni-Cr) with or without surface treatment, suitable conditions were investigated for friction stir welding (FSW) of commercially pure (CP) titani…

The influence of welding tool design on the microstructure of the interface and friction stir spot welded joint between aluminium alloy and low carbon steel was investigated. Two types of welding tool were evaluated: a tool comprising a probe and sh…

A friction stir channelling process to promote a distinct material flow was developed, in which a controlled amount of viscoplasticised material from the metal workpiece flows out from the processed zone producing an internal channel without any gap…

Similar and dissimilar T-joints were made by friction stir welding (FSW) of 3 mm thickness 2024-T3 cover sheet combined with 2.5 mm thick stiffeners consisting of either 2024-T3 or 2098-T8 (stringer) material. During welding the pin penetrated the s…

Microstructure observations and bending tests were employed to investigate the basal plane texture and room temperature formability of AZ31 magnesium alloy rolled and extruded sheets (thickness 3 mm) treated by friction stir processing (FSP). Overla…

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…

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…

A thermal numerical 3D model to predict temperature and machine torque values for bobbin tool friction stir welding (FSW) is presented. The model includes a 3D representation of the work piece, clamping and bobbin tool. The heat transported by the t…

Incorporation of friction stir welding (FSW) in a parallel kinematics machine (PKM) 5-axis machine was undertaken with the intelligent computer aided manufacturing (ICAM) approach to optimise process parameters and tool paths by using available CNC …

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…