The amalgamation of 3D extrusion printing (3DEP) and sintering results in a low-cost
process compared to other laser-based additive manufacturing techniques. This work used …

This review aims to identify process–structure–property relationships in metals fabricated
using binder jet additive manufacturing. Binder jet differs from fusion-based additive …

In this study, the influence of sintering temperature and hold time on densification,
mechanical properties, and microstructural characteristics of 17–4 PH stainless steel …

Purpose This paper aims to provide a comparison between the mechanical performance
and microstructural aspects of stainless steel 17-4 PH processed using, respectively, two …

Filament extrusion-based additive manufacturing of metals offers an alternative to the
widespread beam-based counterparts. The microstructure obtained from extrusion-based …

Efficient density evolution during sintering of the as-printed component is vital to reach full
densification and required properties of binder jet (BJT) components. However, due to the …

Precipitation hardening stainless steels have attracted extensive interest due to their
distinguished mechanical properties. However, it is necessary to further uncover the internal …

Green density of binder jetted parts are typically equal or lower than the powder tap density.
Also, anisotropic green porosity distribution is expected because of the characteristics of the …

Pulsed Nd: YAG laser welding of 17-4 martensitic precipitation hardening (PH) stainless
steel (SS) is investigated. In order to achieve optimum laser welding parameters, bead on …

Sintering is a mainstay production step in forming metal, ceramic, polymer, and composite
components from particles. Since the 1940s, the sintering process is treated using a matrix …