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 …

The additive production of metallic components with high-throughput is usually associated
with high process temperatures and slow cooling rates. This typically results in strongly …

Additive Manufacturing (AM) has spread significantly in recent years, with relevant
applications in many fields of research and engineering. Thanks to its distinctive production …

As a lightweight material, the high-silicon aluminum alloy Al-25Si-4Cu-Mg has been widely
used in aerospace, transportation and construction. Porosity is the most common welding …

Hybrid synchronous pulse cold metal transfer (CMT) welding on a 3.0-mm-thick 6063
aluminium alloy sheet with different welding wires (ER4047 and ER5183) was implemented …

In the present study, the microstructure and corrosion behaviour of laser beam welded 2A97
alloy are investigated. Welding process results in segregation of alloying elements within the …

Double laser-beam bilateral synchronous welding (DLBSW) of T-joints for aluminum alloy is
an advancing technology, which is significant for the aerospace panel structures in the …

The welding of aluminum alloys (Al-alloys) is of great practical relevance in several
industries, but the process can be problematic due to the prevalence of a well-known …

Abstract Laser Additive Manufacturing (LAM) is a promising rapid prototyping technique that
is commonly used in aerospace and other areas due to its ability to manufacture complex …