This paper investigates path planning strategies for additive manufacturing processes such as powder bed fusion. The state of the art mainly studies trajectories based on existing patterns. Parametric optimization on these patterns or allocating them to the object areas are the main strategies. We propose in this work a more systematic optimization approach without any a priori restriction on the trajectories. The typical optimization problem is to melt the desired structure, without overheating (to avoid thermally induced residual stresses) and possibly with a minimal path length. The state equation is the heat equation with a source term depending on the scanning path. First, in a steady-state context, shape optimization tools are applied...
High demand for components with complex geometries at macro and micro levels drives the development ...
The main contribution of this thesis is the implementation of manufacturing constraints in shape and...
This paper is concerned with shape and topology optimization of parts and their supports, taking int...
This paper investigates path planning strategies for additive manufacturing processes such as powder...
International audienceIn this paper, scanning paths optimization for the powder bed fusion additive ...
This work investigates path planning optimization for powder bed fusion additive manufacturing proce...
In powder-bed based layered manufacturing, a focused and high power laser beam is guided to travel ...
International audienceAdditive Manufacturing (AM) through a Laser Powder Bed Fusion (LPBF) process c...
In powder-bed additive manufacturing, a laser beam melts a thin layer of metallic powder, which soli...
International audienceThis paper is the second part of a two-part article about shape optimization o...
Abstract Powder-bed-based additive manufacturing involves melting of a powder bed using a moving las...
http://link.aip.org/link/?APCPCS/712/2026/1International audienceThis paper presents several approac...
High demand for components with complex geometries at macro and micro levels drives the development ...
The main contribution of this thesis is the implementation of manufacturing constraints in shape and...
This paper is concerned with shape and topology optimization of parts and their supports, taking int...
This paper investigates path planning strategies for additive manufacturing processes such as powder...
International audienceIn this paper, scanning paths optimization for the powder bed fusion additive ...
This work investigates path planning optimization for powder bed fusion additive manufacturing proce...
In powder-bed based layered manufacturing, a focused and high power laser beam is guided to travel ...
International audienceAdditive Manufacturing (AM) through a Laser Powder Bed Fusion (LPBF) process c...
In powder-bed additive manufacturing, a laser beam melts a thin layer of metallic powder, which soli...
International audienceThis paper is the second part of a two-part article about shape optimization o...
Abstract Powder-bed-based additive manufacturing involves melting of a powder bed using a moving las...
http://link.aip.org/link/?APCPCS/712/2026/1International audienceThis paper presents several approac...
High demand for components with complex geometries at macro and micro levels drives the development ...
The main contribution of this thesis is the implementation of manufacturing constraints in shape and...
This paper is concerned with shape and topology optimization of parts and their supports, taking int...