The described idea aims to increase the 3D printed parts strength in Z-axis by creating a non-planar infill when printing with a Fused Filament Fabrication (FFF) printer. This non-planar infill is created using standard planar moves of the nozzle and uses extreme over-extrusion to shape the molten plastic in a controlled way across layers
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
This publication relates to an FFF 3D printer generating an interface layer between a raft and the p...
Fused deposition modeling (FDM) printers are becoming more frequent in everyday use. These types of ...
The mechanical properties of parts made by fused filament fabrication is highly anisotropic, with t...
This idea aims to increase the 3D printed objects strength in Z-axis by ironing each layer of the pr...
The mechanical strength of extrusion-based printed parts is often greatly reduced (25-50%) in the b...
A new method of FFF (Fused Filament Fabrication) printing is proposed. The method can be performed u...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
Fused Filament Fabrication (FFF) involves depositing material layer-by-layer to create a three-dim...
In Extrusion based 3D Printing technology, the voids could be reduced and the surface finish of prin...
In this paper, we introduce an advanced numerical tool aimed to optimise the infill design of 3D pri...
Interlaminar strength of extrusion-based additively manufactured parts is known to be weaker than t...
Recent studies have contested long-standing assumptions that mechanical anisotropy is caused by weak...
The plastics industry has been utilizing 3D printing more over time. The process of 3D printing allo...
Following from developments in continuously variable extrusion width in fused filament fabrication ...
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
This publication relates to an FFF 3D printer generating an interface layer between a raft and the p...
Fused deposition modeling (FDM) printers are becoming more frequent in everyday use. These types of ...
The mechanical properties of parts made by fused filament fabrication is highly anisotropic, with t...
This idea aims to increase the 3D printed objects strength in Z-axis by ironing each layer of the pr...
The mechanical strength of extrusion-based printed parts is often greatly reduced (25-50%) in the b...
A new method of FFF (Fused Filament Fabrication) printing is proposed. The method can be performed u...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
Fused Filament Fabrication (FFF) involves depositing material layer-by-layer to create a three-dim...
In Extrusion based 3D Printing technology, the voids could be reduced and the surface finish of prin...
In this paper, we introduce an advanced numerical tool aimed to optimise the infill design of 3D pri...
Interlaminar strength of extrusion-based additively manufactured parts is known to be weaker than t...
Recent studies have contested long-standing assumptions that mechanical anisotropy is caused by weak...
The plastics industry has been utilizing 3D printing more over time. The process of 3D printing allo...
Following from developments in continuously variable extrusion width in fused filament fabrication ...
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
This publication relates to an FFF 3D printer generating an interface layer between a raft and the p...
Fused deposition modeling (FDM) printers are becoming more frequent in everyday use. These types of ...