During the additive manufacturing (AM) process, energy is transferred from the energy beam
to the processed material. The high-energy input and uneven temperature distribution result …

The undesirable residual stress accumulated in the parts during the melting and
solidification of the metal powder layer by layer retards the further application of the selective …

Powder bed fusion is one of the most common types of additive manufacturing processes
using granular materials. In this field, improvements in the processing of materials and …

In the current review, an exceptional view on the multi-scale integrated computational
modelling and data-driven methods in the Additive manufacturing (AM) of metallic materials …

This work presents a novel modeling framework combining computational fluid dynamics
(CFD) and cellular automata (CA), to predict the solidification microstructure evolution of …

This paper presents a comprehensive review on the sources of model inaccuracy and
parameter uncertainty in metal laser powder bed fusion (L-PBF) process. Metal additive …

Traditional sintering processes are carried out to achieve complete material densification. In
an electron beam powder bed fusion (EB-PBF) process, the same sintering mechanisms …

In this study, the sintering behavior of additively manufactured stainless steel powder
particles is simulated using a three-dimensional kinetic Monte Carlo (kMC) model. The initial …

The precision of the objects fabricated by laser powder bed fusion (LPBF) and their overall
quality is currently commonly increased by process optimization, however the relatively …

Additive Manufacturing (AM), or else Smart Manufacturing, has been an intrinsic concept in
Industry 4.0, offering flexibility and material efficiency. Certain limitations prevent AM from …