The strength and toughness of material extrusion 3D printed parts is increased through the
extrusion of core-sheath dual material thermoplastic filament feedstocks in which the …

Material Extrusion (MEX) systems with dual-material capability can unlock interesting
applications where flexible and rigid materials are combined. When chemically incompatible …

Compressibility and viscosity of polymer feedstock are critical to their volumetric flow rate,
weld strength, and dimensional accuracy in material extrusion additive manufacturing. In this …

Additive manufacturing offers reduced lead time between design and manufacturing. Fused
filament fabrication, the most common form of material extrusion additive manufacturing …

The new trend in the composites industry, as dictated by Industry 4.0, is the personalization
of mass production to match every customer's individual needs. Such synergy can be …

Additive manufacturing provides new possibilities in product design compared to traditional
manufacturing processes. Particularly additive material extrusion offers the freedom to …

High-strength and lightweight products have always been the dream of human beings,
especially today when energy resources are increasingly depleted. Although additive …

Fusion deposition modeling (FDM) is an incredibly dynamic yet inexpensive process for a
range of fabrication steps from prototy** to mass production. FDM is on the cutting edge of …

Abstract Acrylonitrile-Butadiene-Styrene (ABS) is widely used in material extrusion additive
manufacturing due to its well-balanced mechanical and rheological properties, as well as its …

Material extrusion (ME) can be used to manufacture a range of three-dimensional shapes by
stacking extruded polymer layers with a heated nozzle. While the process is suitable for …