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6th International Symposium 2006
Fatigue tests were performed using lap-shear specimens of friction stir spot welded Al, 0.8%Mg, 1%Si alloys. Sheet specimens (thickness 2 mm) were subjected to PWHT of solution treatment and/or ageing. Weld zone microstructure was observed by SEM. F…
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6th International Symposium 2006
The joining of hot rolled aerospace quality AZ31B-H24 magnesium alloy (Mg, 2.5-3.5%Al, 0.7-1.3%Zn, 0.2-1.0%Mn) sheets (thickness 4.95 mm) was investigated using an MTS ISTIR friction stir welding (FSW) machine, the quality of the butt joints produce…
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6th International Symposium 2006
A brief review is presented of the state of development of polycrystalline cubic boron nitride (PCBN) tool materials for friction stir welding (FSW) of high-temperature materials (high alloy steels and Ni based alloys) with respect to weld penetrati…
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6th International Symposium 2006
Residual stresses in multi-pass friction stir processed NiAl bronze using the contour method
ArticleMultirun friction stir processing (FSP) (12 mm depth over large surface area) was performed on NiAl bronze (Cu, 9.1%Al, 4.4%Ni, 3.9%Fe) thick plates (thickness 40 mm) using a rectangular spiral-out raster path, and longitudinal residual stresses wer…
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11th International Symposium 2016
An overview is presented of the twenty year history and technological developments relating to the application of friction stir welding (FSW) to aluminium alloy railway car body shells. Issues discussed include the history of railway car body shell …
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8th International Symposium 2010
The microstructure and corrosion properties of welded joints in Inconel 22 (Alloy 22 or NO6022) made by friction stir welding (FSW) were investigated. Bead-on-plate welds were produced in Alloy 22 (59.6%Ni, 13.43%Mo, 0.22%Cr, 3.29%W, 3.17%Fe, 0.84%C…
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11th International Symposium 2016
An investigation is presented into a methodology for simulating the entire friction stir welding (FSW) process using a hybrid mesh free method on a graphics processing unit (GPU) and its implementation for different FSW applications such as butt joi…
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4th International Symposium 2003
Fatigue crack growth in friction stir welded (FSW) aluminium alloys 2024-T3 and 6013-T6 were predicted using two commercial software programs, ESACRACK and AFGROW in order to facilitate lifetime predictions of FSW aircraft structures. The following …
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3rd International Symposium 2001
Development of friction stir welding of 7000 series extrusions for central wing box application
ArticleThe feasibility of using friction stir welding (FSW) in the construction of an aircraft central wing box from butt-welded extrusions was evaluated. An FSW procedure for welding 7055 T77511 and 7349 T6511 10 mm thickness extrusions was developed by T…
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3rd International Symposium 2001
The application of friction stir welding (FSW) to the fabrication of copper backing plates of thickness 6 mm was investigated. The welding conditions, FSW machine development, and mechanical and metallurgical properties of friction stir welded joint…
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2nd International Symposium 2000
The design, construction and use of a purpose-built friction stir welding machine for the welding of 15.9 mm (0.625 in) thickness, 1.88 m (74 in) long aluminium alloy 6061-T6 plate and extruded sections to form the side panels of a laser system is d…
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2nd International Symposium 2000
The repair of friction stir weld defects in aluminium alloy 6061-T6 3 mm thickness sheet (Al, 0.683%Mg, 0.564%Si) by friction stir welding was investigated using artificial defects. The defects were created using an unsuitable pin profile, whilst re…
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1st International Symposium 1999
A softening model was constructed for friction stir welding (FSW) of 2xxx series aluminium alloys and was combined with previously derived thermal cycle modelling work. A thermal model of energy input and heat conduction was used to calculate therma…
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1st International Symposium 1999
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…
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1st International Symposium 1999
Finite element analysis was used to model the friction stir welding process in 6061-T6 aluminium alloy plate, to predict temperature, residual stress and distortion. Temperature distributions in the workpiece were determined as a function of time, c…
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7th International Symposium 2008
3-point fatigue bending tests and finite element method simulations were employed to study the fatigue performance of combined lap-butt joints fabricated by friction stir welding in 6005A-T6 alloy (Al, 0.61%Si, 0.54%Mg) extruded profiles for railway…
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12th International Symposium 2018
Dissimilar overlap joints between different aluminium alloys were fabricated by friction stir welding (FSW) and the influence of alloy composition and FSW tool type on fatigue fracture, microstructure and mechanical properties was investigated. The …
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9th International Symposium 2012
Material properties governing wear of Co-based alloy tool during friction stir welding of steels
ArticleSeveral kinds of Co-based alloys with different mechanical properties (e.g. high temperature strength, hardness, wear resistance and gamma-solvus temperature) were designed for friction stir welding (FSW) tool applications by varying chemical compos…
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7th International Symposium 2008
Orientation imaging microscopy was employed to characterise the stir zone microstructure in relation to the defect formation tendency and evaluate the peak temperature at different locations in friction stir welded Ti-6%Al-4%V specimens. Welded join…
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11th International Symposium 2016
Flame resistant AZX 612 (Mg, 6%Al, 1%Zn, 2%Ca) magnesium alloy joints were fabricated by asymmetric double sided friction stir welding (FSW) and the influence of tool rotational speed on their microstructure and mechanical properties was investigate…
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