Additive manufacturing (AM) is suitable for fabricating components made from expensive,
high-strength metallic materials, which can be designed and created with minimal material …

The extrusion-based additive manufacturing (EAM) technique is recently being employed for
rapid production of metals and ceramic components. This technique involves extruding the …

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

The urge to replace missing teeth dates back to the origin of medicine. Along history, organic
materials, metals, alloys, polymers, glasses, and carbon were used to substitute teeth, but …

Additive manufacturing (AM) has attracted huge attention for manufacturing metals,
ceramics, highly filled composites, or virgin polymers. Of all the AM methods, material …

Abstract Defect-free three-dimensional (3D)-printed ceramics, such as alumina, zirconia,
and titania, have been successfully fabricated by controlling the initial defect formation using …

In this paper, a biobased binder mainly composed of polylactic acid (PLA) was developed
for the production of Ti6Al4V feedstock suitable for 3D printing via material extrusion. 3D …

Permanent magnets play a crucial role in cutting-edge technologies owing to their growing
economic significance as a technology facilitating the shift from fossil fuels to renewable …

Debinding at different temperatures under an argon atmosphere, combined with sintering,
was used to obtain alumina ceramics fabricated from stereolithography-based 3D printing …

In the realm of material innovation, the remarkable versatility of thermoplastic-based highly
filled composites emerges as a pivotal advantage for fabricating metal parts, seamlessly …