The mechanical performance of 3D printed components is highly dependent upon the orientation of the part relative to the build plane. Specifically for extrusion-based printing systems, the bond between successive layers (z-direction) can be 10-25% weaker than in the printed plane (x-y plane). As advanced applications call for fiber reinforced materials and larger print systems (such as the Big Area Additive Manufacturing system) extend the layer time, mechanical performance in the z-direction can decrease by 75-90%. This paper presents a patent-pending approach for improving mechanical performance in the z-direction by depositing material vertically across multiple layers during the build. The “z-pinning” process involves aligning vo...
The described idea aims to increase the 3D printed parts strength in Z-axis by creating a non-planar...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
Active-Z Printing offers the ability to deposit material along non-planar layers to control the mec...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
The mechanical strength of extrusion-based printed parts is often greatly reduced (25-50%) in the b...
The mechanical properties of parts made by fused filament fabrication is highly anisotropic, with t...
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
Recent studies have contested long-standing assumptions that mechanical anisotropy is caused by weak...
Interlaminar strength of extrusion-based additively manufactured parts is known to be weaker than t...
Additive Manufacturing technologies has been in continuous development for more than 35 years. Speci...
This study demonstrates that the interface between layers in 3D-printed polylactide has strength of ...
The anisotropy of mechanical strength on a 3D printed model can be controlled in a multi-axis 3D pri...
Traditional Fused Filament Fabrication methods create a mechanically anisotropic structure that is ...
Fused Filament Fabrication (FFF) involves depositing material layer-by-layer to create a three-dim...
Anisotropy on strength between different layers and filaments in the material extrusion (MEX) proce...
The described idea aims to increase the 3D printed parts strength in Z-axis by creating a non-planar...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
Active-Z Printing offers the ability to deposit material along non-planar layers to control the mec...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
The mechanical strength of extrusion-based printed parts is often greatly reduced (25-50%) in the b...
The mechanical properties of parts made by fused filament fabrication is highly anisotropic, with t...
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
Recent studies have contested long-standing assumptions that mechanical anisotropy is caused by weak...
Interlaminar strength of extrusion-based additively manufactured parts is known to be weaker than t...
Additive Manufacturing technologies has been in continuous development for more than 35 years. Speci...
This study demonstrates that the interface between layers in 3D-printed polylactide has strength of ...
The anisotropy of mechanical strength on a 3D printed model can be controlled in a multi-axis 3D pri...
Traditional Fused Filament Fabrication methods create a mechanically anisotropic structure that is ...
Fused Filament Fabrication (FFF) involves depositing material layer-by-layer to create a three-dim...
Anisotropy on strength between different layers and filaments in the material extrusion (MEX) proce...
The described idea aims to increase the 3D printed parts strength in Z-axis by creating a non-planar...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
Active-Z Printing offers the ability to deposit material along non-planar layers to control the mec...