Mechanical properties of products produced with the Fused Deposition Modeling (FDM) process are known to be dependent on bead direction, especially when short fiber reinforcement is added to the polymer filament feedstock. As a result, the structural performance of fiber-filled FDM parts is expected to be improved by simultaneously computing preferred deposition directions while optimizing the internal support structure. This paper presents a topology optimization method for computing the material distribution within a fiber-reinforced polymer composite FDM part that incorporates the non-isotropic mechanical properties of the bead structure. Unlike the well-established homogenization topology optimization method which determines poi...
Additive manufacturing for fibre-reinforced composite structures is rapidly diffusing, since it enab...
Fiber-reinforced composite materials, exemplified by CFRP, offer the possibility of achieving lightw...
By adding fibers to a polymer matrix, a reinforcement of the material can be achieved. Short fiber-...
Mechanical properties of parts produced with the Fused Filament Fabrication (FFF) process are known...
Topology optimization has become an increasingly important field in materials engineering for determ...
Products produced with Additive Manufacturing often have anisotropic microstructures that form mater...
Fused deposition modeling (FDM) is one of the important additive layer manufacturing techniques, use...
Efficient optimization of topology and raster angle has shown unprecedented enhancements in the mech...
Products produced with Additive Manufacturing (AM) methods often have anisotropic microstructure th...
This work proposes a novel framework able to optimise both topology and fibre angle concomitantly to...
Fused Filament Fabricated parts exhibit mechanical anisotropy induced by the filament extrusion patt...
AbstractAdditive manufacturing (AM) processes enable the production of functional parts with complex...
Mechanical properties of 3d printed polymers have witnessed remarkable improvements as a result of o...
Topology optimization has emerged as an effective design approach that obtains complex geometries s...
Fused Filament Fabrication (FFF) is a rapidly improving 3D printing technology that can be used for ...
Additive manufacturing for fibre-reinforced composite structures is rapidly diffusing, since it enab...
Fiber-reinforced composite materials, exemplified by CFRP, offer the possibility of achieving lightw...
By adding fibers to a polymer matrix, a reinforcement of the material can be achieved. Short fiber-...
Mechanical properties of parts produced with the Fused Filament Fabrication (FFF) process are known...
Topology optimization has become an increasingly important field in materials engineering for determ...
Products produced with Additive Manufacturing often have anisotropic microstructures that form mater...
Fused deposition modeling (FDM) is one of the important additive layer manufacturing techniques, use...
Efficient optimization of topology and raster angle has shown unprecedented enhancements in the mech...
Products produced with Additive Manufacturing (AM) methods often have anisotropic microstructure th...
This work proposes a novel framework able to optimise both topology and fibre angle concomitantly to...
Fused Filament Fabricated parts exhibit mechanical anisotropy induced by the filament extrusion patt...
AbstractAdditive manufacturing (AM) processes enable the production of functional parts with complex...
Mechanical properties of 3d printed polymers have witnessed remarkable improvements as a result of o...
Topology optimization has emerged as an effective design approach that obtains complex geometries s...
Fused Filament Fabrication (FFF) is a rapidly improving 3D printing technology that can be used for ...
Additive manufacturing for fibre-reinforced composite structures is rapidly diffusing, since it enab...
Fiber-reinforced composite materials, exemplified by CFRP, offer the possibility of achieving lightw...
By adding fibers to a polymer matrix, a reinforcement of the material can be achieved. Short fiber-...