One of the main limitations of parts made with Material Extrusion (ME) is their anisotropic mechanical behaviour. This behaviour limits the functionality of these components in multi-directional loading conditions. A critical factor for this mechanical behaviour is the poor bonding between layers. 5-axis ME has the capability to orientate the printed layers in order to limit the effect of poor inter-laminar bonding. Previous studies have investigated 5- axis ME, but not fully explored 5-axis capabilities of this manufacturing technique. To address this gap, this paper compares the mechanical behaviour of 3-axis and 5-axis ME samples when subjected to compressive loading. The results demonstrate how depositing material in “3D layers”...
The layer-by- layer deposition of material in Additive Manufacturing (AM) introduces the capability...
Additive Manufacturing technologies has been in continuous development for more than 35 years. Speci...
The interlayer interface was widely considered as the reason for anisotropic mechanical properties i...
One of the main limitations of parts made with Material Extrusion (ME) is their anisotropic mechanic...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved b...
One of the main limitations of material extrusion (ME) components is their anisotropic mechanical be...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved by...
Purpose The purpose of this paper is to select a product suitable for printing via multi-axis addit...
Material extrusion additive manufacturing (MEAM) is a versatile and valuable manufacturing process, ...
This study demonstrates that the interface between layers in 3D-printed polylactide has strength of ...
Recent studies have contested long-standing assumptions that mechanical anisotropy is caused by weak...
Multi-material additive manufacturing (AM) offers new design opportunities for functional integratio...
Multi-material additive manufacturing (AM) offers new design opportunities for functional integratio...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
In-situ embedding with Additive Manufacturing (AM) enables a user to insert functional components i...
The layer-by- layer deposition of material in Additive Manufacturing (AM) introduces the capability...
Additive Manufacturing technologies has been in continuous development for more than 35 years. Speci...
The interlayer interface was widely considered as the reason for anisotropic mechanical properties i...
One of the main limitations of parts made with Material Extrusion (ME) is their anisotropic mechanic...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved b...
One of the main limitations of material extrusion (ME) components is their anisotropic mechanical be...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved by...
Purpose The purpose of this paper is to select a product suitable for printing via multi-axis addit...
Material extrusion additive manufacturing (MEAM) is a versatile and valuable manufacturing process, ...
This study demonstrates that the interface between layers in 3D-printed polylactide has strength of ...
Recent studies have contested long-standing assumptions that mechanical anisotropy is caused by weak...
Multi-material additive manufacturing (AM) offers new design opportunities for functional integratio...
Multi-material additive manufacturing (AM) offers new design opportunities for functional integratio...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
In-situ embedding with Additive Manufacturing (AM) enables a user to insert functional components i...
The layer-by- layer deposition of material in Additive Manufacturing (AM) introduces the capability...
Additive Manufacturing technologies has been in continuous development for more than 35 years. Speci...
The interlayer interface was widely considered as the reason for anisotropic mechanical properties i...