TWI Digital Library

The viscoplastic behaviour of two aluminium alloys (non heat-treatable AA5083-H111 and heat-treatable AA6082-T6) was analysed by performing tensile tests at different temperatures and strain rates and the friction stir weldability of the materials i…

Friction stir welding of aluminium alloy JIS-6N01-T5 (Al, 0.4-0.8%Mg, 0.4-0.9%Si) was investigated for subway [underground railway] rolling stock applications by comparing the welded joint properties with those of MIG and laser welded joints. Sheet …

Friction stir welding (FSW) was employed to weld Mo and Ti sheets (thickness 1.5 and 2 mm, respectively), the effects of process conditions on weldability as well as mechanical properties and microstructure of joints was investigated, and the import…

Friction stir processing (FSP) was employed to fabricate oxide dispersion strengthened copper-based composite plates with a graded microstructure and evolving mechanical, thermal, electrical and wear properties along their thickness. Specimens compr…

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…

High-strength aluminum alloys of the AA7xxx-series are increasingly used in demanding environments owing to their excellent strength-to-weight-ratio. The strengthening mechanism of these alloys is dependent on the precipitation of hardening particle…

Forces experienced by the pin and the workpiece during friction stir welding were measured and used to design a friction stir welding machine which would accept a curved workpiece fed through the machine by hand. Forces in three perpendicular direct…

The effects of rotation speed, welding speed and Z-axis force on process response variables (power, specific energy, torque, X-axis force) and properties (nugget hardness, strength and ductility, nugget grain size and HAZ hardness) of AA2524-T351 fr…

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…

Microstructural and textural variations in friction stir weld-affected regions of near-alpha Ti-5111 alloys (Ti, 5%Al, 1%Sn, 1%Zr, 1%V, 0.8%Mo) were investigated experimentally and a model incorporating micro-shear banding was proposed to account fo…

The use of friction stir welding for the repair of cracks in aluminium alloy 2024 aircraft wing skin structures, and the repair fatigue life were investigated. An artificial crack, 42 mm in length, in a flat section 2024-T351 alloy of 3.2 mm thickne…

An accurate temperature feedback strategy and closed-loop feedback control system for temperature have been developed for friction stir welding. A wireless data acquisition system was constructed to measure temperatures at the tool-workpiece interfa…

Friction stir welding was used to produce a space shuttle external barrel section of 2195-T8 Al-Cu-Li alloy. Seven panels (joint thickness of 8.1 mm (0.32 in)) were joined to form a barrel 8.4 m (27.5 ft) in diameter and 4.6 m (15 ft) long. A comput…

Aluminium alloy 7050-T751 was friction stir welded using a range of process parameters, and finite element analysis was used to calculate the time-temperature distributions so that the resultant weld properties could be related to the welding parame…

Two friction stir welding (FSW) procedures, a sacrificial anvil method and a hybrid FSW/arc welding technique, were developed to assure consistent full penetration welds during the construction of offshore and onshore pipelines, respectively. The of…

Friction stir welding trials were undertaken on AA 7075-T7351 aluminium alloy plates (thickness 9.525 mm) to investigate the influence of backing plate characteristics on heat input and cooling rate. Experiments were performed on an MTI RM2 friction…

The principles are presented of stationary shoulder friction stir welding (FSW) with examples of the weld microstructures that can be achieved. Trials were conducted on 6.35 mm plate of Ti-6%Al-4%V titanium alloy, with spindle speed of 400 rpm and t…

A finite element model based on a staggered thermo-fluid solution scheme was employed to investigate flow around friction stir welding (FSW) tools, "MORFEO" code simulations were undertaken to predict flow patterns and temperature distribution in th…

Friction stir welding (FSW) was employed to join partially recrystallised AA 5052 (Al, 2.3%Mg) sheet specimens (thickness 5 mm) and the relationship between microstructural development, mechanical properties and process parameters was investigated. …

A series of friction stir welding (FSW) experiments using threaded tool pins and AA5083 (Al, 4.5%Mg, 0.6%Mn) or A356 (Al, 7%Si, 0.3%Mg) workpiece alloys was undertaken in order to understand material flow mode within thread spaces and its influence …