Active-Z Printing offers the ability to deposit material along non-planar layers to control the mechanical behavior of parts produced by material extrusion additive manufacturing. These non-planar layers can be exploited to incorporate a part’s loading conditions into the slicing process by aligning deposited layers with predicted localized stress tensors. In this work, we demonstrate that superior structural performance can be achieved by taking advantage of layer shapes derived from principal stress trajectories. A slicing method incorporating stress field data is developed to generate 3D layers from principal stress trajectories. As a demonstration, a 3-point bend specimen is manufactured with 3D layers derived from principal stre...
Figure 1: Two examples of real and replicated objects. Thanks to our data-driven process, we are abl...
Advancement of additive manufacturing is driving a need for design tools that exploit the increasing...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved by...
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...
International audienceMulti-axis motion introduces more degrees of freedom into the process of 3D pr...
The mechanical strength of extrusion-based printed parts is often greatly reduced (25-50%) in the b...
Additive manufacturing (AM) allows for free complexity. However, the layer-by-layer manufacturing ...
Fibre reinforced filament fabrication is a potential additive manufacturing method for certain load-...
In this paper a phase-field approach for structural topology optimization for a 3D-printing process ...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
3D printing enables engineers to design and manufacture geometrically complex structures. As 3D pri...
The overarching objective of this research was to investigate the dynamic mechanical behavior from a...
Figure 1: Two examples of real and replicated objects. Thanks to our data-driven process, we are abl...
Advancement of additive manufacturing is driving a need for design tools that exploit the increasing...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved by...
Research suggests that topology and build parameters in Fused Filament Fabrication (FFF) play a vit...
The mechanical performance of 3D printed components is highly dependent upon the orientation of the...
Our research aims to push the limits of 3D printing towards the structural design and optimization. ...
International audienceMulti-axis motion introduces more degrees of freedom into the process of 3D pr...
The mechanical strength of extrusion-based printed parts is often greatly reduced (25-50%) in the b...
Additive manufacturing (AM) allows for free complexity. However, the layer-by-layer manufacturing ...
Fibre reinforced filament fabrication is a potential additive manufacturing method for certain load-...
In this paper a phase-field approach for structural topology optimization for a 3D-printing process ...
A key process in additive manufacturing is converting a 3D model into a set of instructions that a ...
Additive manufacturing has the potential to provide novel solutions for fabricating complex structur...
3D printing enables engineers to design and manufacture geometrically complex structures. As 3D pri...
The overarching objective of this research was to investigate the dynamic mechanical behavior from a...
Figure 1: Two examples of real and replicated objects. Thanks to our data-driven process, we are abl...
Advancement of additive manufacturing is driving a need for design tools that exploit the increasing...
Mechanical properties of parts fabricated via the Material Extrusion (ME) process can be improved by...