The present study deals with laser beam welding (LBW) and friction stir welding (FSW)
applied to high-strength aluminum alloys used in aircraft industry and displays their …

Aluminium alloys are widely used in many industries due to their high strength-to-weight
ratios and resistance to corrosion. Due to their specific thermophysical properties and …

Reducing environmental impact while achieving desired processing performance is
increasingly sought after. Various welding processes are widely employed in advanced …

Welding of dissimilar aluminum alloys is gaining an attention in academic and industrial
communities because of wide spread industrial application. In this study, the dissimilar laser …

In this work, the microstructures of the electron-beam welded joints of cast Al–Cu–Mg–Ag
alloy plate were investigated in terms of the element segregation, grain structure and …

Abstract In this work, 1460 Al-Li alloy plates (thickness 2 mm) were butt-welded by using
conventional variable polarity TIG welding (VPTIG), low-frequency pulsed (2 Hz) variable …

Laser welding could provide thermal concentration and penetration to alloys, making
microstructural diversity that determines mechanical properties. During laser welding …

Abstract 2A97 Al-Li joints were achieved by using a fibre laser welding with filler wire (non-
autogenous) and without filler wire (autogenous), of which the microstructures, mechanical …

Laser shock peening (LSP) is a modern and efficient thermo-mechanical approach to
engineer and modify the surface and subsurface related properties of materials which has …

Laser beam welding of aluminum alloy is challenged by poor mechanical properties of weld
joint. Here we employ a quasi-continuous-wave laser beam welding to join 7075-T6 …