This study focuses on the microstructure and tensile behaviour of the as-deposited 5183 Al–
Mg alloy fabricated by electrospark deposition (ESD) additive manufacturing. Tensile tests …

In recent years, additive manufacturing of products made from 5000 series alloys has grown
in popularity for marine and automotive applications. At the same time, little research has …

The present study focuses on the fabrication of 2219 aluminum alloy components using
double-electrode gas metal arc (DE-GMA) based additive manufacturing (AM) capable of …

In this work, AZ31 magnesium alloy was successfully manufactured by the electron beam
additive manufacturing (EBAM) technique. The microstructure and mechanical properties of …

Magnesium based alloys offer unique opportunities for lightweight structural and biomedical
applications via additive manufacturing (A/M) because of their low density, biocompatibility …

Thin‐walled specimens of 2219 aluminum alloy are fabricated at different deposition speeds
using the wire+ arc additive manufacturing (WAAM) method. The effects of deposition speed …

A matrix of nine experiments was conducted on aluminum alloy 2139 samples made by an
electron beam directed energy deposition additive manufacturing process to characterize …

In this contribution it will be shown how the metal powder bed fusion technology electron
beam melting (EBM) enables a successful crack-and defect-free processing of the non …

As a kind of directed energy deposition (DED) method, wire and arc additive manufacturing
(WAAM) is a solution for the short-process manufacturing of medium complex and integral …

Wire arc additive manufacturing (WAAM) is performed to study the effects of three deposition
strategies on the 5356 aluminum alloy (AA5356) components. Three deposition strategies …