TWI Digital Library

The microstructure, hardness, tensile strength and fracture toughness of friction stir welds in cryogenic tanks made from standard AA2219 AlCu alloy and advanced AA2195 AlCuLi alloy (5 mm thickness) were investigated. AA2195 has relatively low densi…

An investigation is presented into the effects of process parameters on weld quality and defect generation (hooking defects, kissing bonds and top plate thinning) in 7075-T6 aircraft stringers (thickness 1.5 mm) lap-joined on 2024-T3 skins (thicknes…

Friction stir lap welding of aluminium alloy to magnesium alloy was investigated, emphasising the tensile strength, fracture location in the joint and microstructure evolution in the weld under different welding heat inputs. Dissimilar joints betwee…

Thick sheets (thickness 5.4 mm) of a ferritic stainless steel (18.33%Cr, 1.81%Mo, 0.2%Nb) were joined by friction stir welding with optimised process parameters (rotational speed 200 rpm, welding speed 100-160 mm/min) and the microstructure and mech…

An empirical process model to estimate tool shoulder temperature for different materials and friction stir welding (FSW) conditions is described that incorporates a design of experiments method and linear regression analysis (MATLAB software) with c…

To better understand the heat generation, temperature distribution and material flow during friction stir welding (FSW), experiments, including some with a pin breaking technique, were undertaken on two aluminium alloys (5083-O (Al, 4.5%Mg) rolled p…

The influence of the tool profile and short welding cycles on the friction stir spot welding (FSSW) of thin aluminium sheet was investigated using several different techniques including high-resolution x-ray tomography. Weld quality, microstructure,…

Based on the hypothesis that uniform friction stir weld quality can be produced by maintaining a constant weld zone temperature, an investigation was conducted to develop a feedback strategy and a closed-loop control algorithm to maintain constant t…

With regard to the need for in-process subsurface defect monitoring during friction stir welding (FSW) of aluminium alloys, an investigation is presented into a real-time force measurement system of process output to sense defect formation. Issues d…

An experimental investigation was made on the effect of processing variables and tool material on the microstructure of friction stir welded (FSW) 6 mm thick HSLA-65 steel plate, with the aim of optimising the process variables for enhanced mechanic…

A two-run friction stir welding process was employed to fabricate butt joints in API 5L X80 pipeline steel (0.08%C, 1.86%Mn, 0.16%Cr, 0.01%Ni, 0.18%Mo, 0.03%V, 0.06%Nb) plates (thickness 12 mm) and fracture toughness was determined in the parent met…

With regard to the development of aluminium military vehicles, a report is presented into production level single run friction stir welding (FSW) process parameters for thick plate samples (thickness 12.7-40.6 mm) of 5083, 5059 and 2139 aluminium al…

Friction stir welding experiments were undertaken on commercial SPF (superplastic forming) AA 5083-H19 (Al, 4.43%Mg) and AA 2004 (Al, 6.05%Cu) aluminium alloys, and the effects of tool size, geometry and primary process variables on microstructure a…

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…

Dissimilar lap joints between AlSi10MgMn aluminium alloy sheets (thickness 3 mm) and Al-Si coated Usibor 1500 22MnB5 hot stamped boron steel sheets (thickness 1.8 mm) were fabricated by friction stir spot welding (FSSW) under different processing co…

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 …

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 experimental investigation is presented into the precipitation and hardening mechanism during FSW (friction stir welding) of Ni model alloys (Ni, 20%Cr, 2%Al, 2%Ti and Ni, 20%Cr, 3%Al, 3%Ti) in which Al and Ti contents were varied to control the …

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…

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 …