Fusion-based additive manufacturing (AM) has significantly grown to fabricate Nickel-based
superalloys with design freedom across multiple length scales. Several phenomena such as …

In metals additive manufacturing (AM), materials and components are concurrently made in
a single process as layers of metal are fabricated on top of each other in the near-final …

Electron beam additive manufacturing (EBAM) is a relatively new technology to produce
metallic parts in a layer by layer fashion by melting and fusing the metallic powders. Ti–6Al …

Selective laser melting (SLM) is an additive manufacturing technology that uses a laser
beam to melt powder materials together layer by layer for solid part fabrication. Due to its …

Solute transport during rapid and repeated thermal cycle in additive manufacturing (AM)
leading to non-equilibrium, non-uniform microstructure remains to be studied. Here, a fully …

A phase-field model of alloy solidification is coupled to a new heat transfer finite element
model of the laser powder deposition process. The robustness and accuracy of the coupled …

In this study, an alloy phase-field model is used to simulate solidification microstructures at
different locations within a solidified molten pool. The temperature gradient G and the …

It is one concern of the researchers how magnesium (Mg) alloys solidify under different
conditions and how their microstructure evolves during solidification, and what are the …

Epitaxial columnar grain growth is a prevalent microstructural feature in the additive
manufacturing (AM) of metal components such as Inconel, with cubic unit cell crystal lattice …

In this study, the microstructure evolution in the powder-bed electron beam additive
manufacturing (EBAM) process is studied using phase-field modeling. In essence, EBAM …