The low-cost material extrusion (MEX) additive manufacturing technology can offer an
economical alternative to manufacture metal parts with complex geometry over traditional …

By using filaments comprising metal or ceramic powders and polymer binders, solid metal
and ceramic parts can be created by combining low-cost fused filament fabrication (FFF) …

Purpose Fused filament fabrication (FFF) technique using metal filled filaments in
combination with debinding and sintering steps can be a cost-effective alternative for laser …

Specimens were additively manufactured in 316L stainless steel (SS316L) with a
technology that combines the extruding method of fused filament fabrication (FFF) with the …

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

Material extrusion additive manufacturing can be used for producing metal specimens when
combined with debinding and sintering, similar to metal injection moulding. A highly-filled …

The main additive manufacturing (AM) methods to produce metal components are laser
powder bed fusion and directed energy deposition, which are energy-intensive, time …

Purpose The extrusion-based additive manufacturing method followed by debinding and
sintering steps can produce metal parts efficiently at a relatively low cost and material …

Additive manufacturing, or more commonly 3D printing, has been recently established as
one of the most advanced technologies for fabricating multi-material parts. In this work, the …

Additive manufacturing (AM) is a transformative approach to fabricating metal components in
the industry. However, it is challenging for fusion-based AM to fabricate metallic materials …