TWI Digital Library

The influence of tool and plate positions on the friction stir welding of F82H ferritic/martensitic steel (0.1%C, 8%Cr, 2%W, 0.2%V, 0.04%Ta) and austenitic stainless steels 304 and 316 was investigated. Stainless steel compositions were: 304 (0.08%C…

Analytical modelling and experimental measurements were undertaken to investigate a dual-loop temperature control algorithm for friction stir processing, incorporating an inner loop to maintain constant power and an outer loop to set the power based…

In the last fifteen years, friction stir welding has developed from a laboratory curiosity to an important fabrication technique for lightweight, lower softening temperature alloys. Industrial implementation of joining magnesium has been limited alm…

The relationship between microstructure and hardness was investigated in friction stir welded aluminium alloy 6063-T5. The alloy thickness was 6 mm. Hardness profiles were measured across the stir zone. The microstructure of the as-welded and postwe…

Friction stir processing (FSP) was employed to fabricate oxide dispersion strengthened copper composites and the microstructure and mechanical properties of the materials were investigated in order to clarify the effect of process parameters on mate…

The development and use of friction stir powder processing (FSPP) to overcome defect formation and to control mechanical properties is discussed and FSPP of AA 1050 aluminium (Al, 0.06%Si, 0.34%Fe, 0.02%Cu) is reported. In FSPP, powder with a contro…

A numerical model of the friction stir welding (FSW) process was developed by employing finite element analysis of a non-Newtonian fluid to evaluate plastic deformation and heat generation of the weld material, and was applied to the design of tool …

Control equipment for the friction stir welding process was developed and evaluated for the production of a 8.4 m (27.5 ft) diameter, 0.32 in (8.13 mm) wall thickness 2195-T8 aluminium alloy space vehicle external fuel tank. The use of a computer-ba…

Abrasion circle and modified refill friction stir spot welding (FSSW) techniques were employed to fabricate dissimilar joints between 6111-T4 (Al, 0.75%Mg, 0.69%Si, 0.75%Cu) and AZ31 (Mg, 3%Al, 1%Zn, 0.5%Mn) alloy sheets (thickness 0.9 mm) with the …

The friction stir welding (FSW) process was determined for stiffener to skin lap joints of different aluminium alloys (similar 2024 T3, similar 2139 T3 and T8, dissimilar PA 765 T79 extrusion on 2139 T8 skin) and FSW procedures with retractable pin …

Friction stir welding tool developments to enhance the range of process applications, welding speed and quality are described. The scroll shoulder tool has a shoulder profile which moves surface material towards the probe. It improves surface qualit…

Dissimilar butt joints were fabricated between two aluminium alloys, 2017A-T451 (Al, 4.14%Cu, 0.72%Mg) and AlSi9Mg (Al, 8.6%Si, 0.31%Mg), by friction stir welding (FSW) using a dual-speed tool and their microstructure and mechanical properties were …

An investigation was carried out in order to examine the feasibility of producing friction stir welded FSW T-joints using the corner fillet geometry. A specific tool comprising a rotating pin (made of MP159) with a 45 degree inclination to the two p…

The SCIENZE (Supply Chain Innovation Engineering for Net Zero) Project aims to create a UK based supply chain that is capable of manufacturing the next generation of power electronic components at volumes higher than is currently feasible to do toda…

The development of three-dimensional column-type friction stir welding (FSW) equipment for robotic FSW of joints with complex shapes is described. The process requires a large force and precision control for tool penetration. The specification of th…

A production-capable friction stir welding (FSW) process was developed for butt welds (penetration 25.4 mm) in 6061-T6 aluminium alloys, designed specifically for robotic welding of large box assemblies requiring many multi-dimensional weld paths, a…

Friction stir welding (FSW) was carried out on A-6N01-T5 aluminium alloy of thickness 15 mm in various restraint conditions, and the amount of deformation before and after welding was investigated. Vertical distortion and lateral shrinkage of the we…

Artificial intelligence (Al) and machine learning (ML) are major drivers for improving quality of manufacturing process including Friction Stir welding. The specific parameter that has 100% effect on the quality of FSW has not yet been identified, h…

The floating bobbin friction stir welding (FSW) technique was employed to develop high performance aluminium floor slabs for road bridges and experiments were undertaken to investigate the influence of heat input on fracture location. Butt joints we…

Dissimilar lap joints between ASTM A36 low carbon steel and Inconel 625 (Ni, 21.4%Cr, 9.65%Mo, 3.2%Nb, 2.6%Fe) were fabricated by friction stir welding (FSW) and the effects of process parameters on microstructure and hardness were investigated. FSW…