TWI Digital Library

The incorporation of strips of copper foil in friction stir welded aluminium alloy plate was evaluated for flow visualisation without disturbing the welding process. The strips, of 0.1 mm thickness, were placed in various longitudinal and transverse…

Friction stir welding is widely applied in several industries such as manufacturing rolling stock, automotive parts and ship building. Especially, EV will be expected to popularize in these two or three decades in view of reducing CO2. The parts of …

A process model for friction stir welding (FSW) of Al-Zn-Mg alloys, used to predict HAZ microstructure and hardness, is presented. Numerical solutions (using a finite difference approach) are developed for heat generation and heat flow. Microstructu…

Arcan tests (pure tensile, pure shear and mixed tensile/shear loads) were performed on parent material (6056-T78 aluminium alloy) and friction stir welded (FSW) specimens for comparison purposes and to assess the capability of strain field measureme…

Aluminium alloy fusion welds were modified by friction stir processing (FSP) as a function of FSP location and tool design, and differences between the FSP locations and tools were quantified by microstructure and mechanical property measurements (u…

The friction stir welding of copper for the production of spent nuclear fuel storage disposal canisters was investigated. Initial trials were conducted on UNS-C10100 plate of 10 mm thickness. The high temperatures required the use of a sintered tung…

The use of friction stir welding, as an alternative to bolted or riveted joints, for the assembly of Airbus wings is discussed. Issues considered include: cost reduction, weight reduction, joint quality, and enhanced in-service performance. Potentia…

The mechanical properties and microstructures of friction stir butt welds in 6.4 mm and 12.7 mm thickness quenched and tempered martensitic steel plate were compared with those of GMA butt welds in the same parent metal. The friction stir welds in t…

With regard to inconsistencies in the literature concerning the correlation between friction stir welding (FSW) process inputs and post weld process or material response, an investigation is presented into the primary variables (temperature, cooling…

SiC particle reinforced 2124Al metal matrix composite (MMC) plates (thickness 8 mm) were joined by friction stir welding (FSW) and the relationship between process parameters, weld defect formation and joint mechanical properties was investigated. T…

Friction stir lap diffusion welding was employed to fabricate dissimilar AA 6060 aluminium alloy/mild steel joints and mechanical testing and metallurgical examination of the weldments were undertaken to investigate the effect of microstructure form…

Friction Stir Welding (FSW) is a relatively new technique which utilizes frictional heating combined with a forging pressure to produce virtually defect-free high strength bonds. Although considerable experimental work has been reported in the liter…

The microstructures and strengthening mechanisms during friction stir processing (FSP) of AZ91 (Mg, 9%Al, 1%Zn) die-cast and Mg-Y-Zn (Mg, 5.9%Y, 2.6%Zn and Mg, 5.5%Y, 4.3%Zn) cast alloys were investigated and the effect of second phase particle disp…

An finite element method (FEM) model, considering variables such as tensioning level, heat input and sheet geometry but ignoring mechanical tool effects, was developed to investigate the efficacy of the mechanical tensioning technique for controllin…

The relationship between microstructure and properties in friction stir welding was studied. The effects of grain size, particle size and distribution, and dislocation density on weld strength in friction stir welds in work-hardenable Al alloy AA 52…

In this study, the improvement of process stability of bobbin tool FSW for long welding length was studied. The base material used in this study was 18mm thickness 5083-O Al alloy. Floating bobbin type tools were used in this study. FSW produced def…

Bobbin-tool friction stir welding (BT-FSW) is a variant process of conventional friction stir welding with a particular tool configuration composed of an additional lower shoulder, enabling additional heat input and complete penetration of the pin. …

An investigation is presented into the development of the stationary shoulder self-reacting pin tool (SSSRPT) as a friction stir welding variant and the application of the tool to fabrication of butt joints in sheets (thickness 4 mm) of A6N01 alloys…

Results are presented from tests carried out to determine the mechanical and corrosion properties of friction stir welds in sheets of thickness 4 mm of two aerospace aluminium alloys AA-6056 and AA-6013. The specimens included alloys in the T6 condi…

Lap joints were fabricated in AA 7075-T6 aluminium alloy sheets (thickness 2 mm) using an ESAB "Rosio" friction stir welding (FSW) robot and the effect tool of side-tilt angle on welded joint tensile strength was investigated. A "CounterStir" FSW to…