Cladding through laser metal deposition is a promising application of additive manufacturing. On the one hand, industrial robots are increasingly used in cladding because they provide wide wrist reorientation, which enables manufacturing of complex geometries. On the other hand, limitations in robot dynamics may prevent cladding of sharp edges and large objects. To overcome these issues, this paper aims at exploiting the residual degrees of freedom granted by the cladding process for the optimization of the deposition orientation. The proposed method optimizes the robot head orientation along a predefined path while coping with kino-dynamic constraints as well as process constraints. Experimental tests and results are reported and us...
Industrial extruders mounted on robotic manipulators allow a fused material deposition rate that is ...
Automatic CAD-guided optimal tool planning has many applications in surface manufacturing, such as s...
Traditional extrusion based Additive Manufacturing (AM) is realized using a 3 Degrees of Freedom (DO...
Cladding through laser metal deposition is a promising application of additive manufacturing. On the...
Metal deposition processing is well known for cladding by laser or welding process. Nevertheless, ...
Robot programming is still an expert dependent and not automatically optimized task. In order to mak...
In the operation of a broad range of industrial processes, the uses of robots whose trajectories are...
International audienceThe paper presents a new computational technique for the manufacturing process...
A motion planning strategy was developed and implemented to generate motion control instructions fro...
Due to its high design freedom and flexibility, Additive Manufacturing is often used as an alternati...
Design optimization for Additive Manufacturing is demonstrated by the example of an industrial robot...
Previous algorithms for slicing, path planning or trajectory planning of additive manufacturing cann...
Surface finishing tasks such as grinding or sanding are tedious tasks for highly skilled craftsmen a...
Additive manufacturing through Directed Energy Deposition (DED) enables small batches of parts to be...
Metal deposition is an additive layered manufacturing process that deposits molten metal droplets on...
Industrial extruders mounted on robotic manipulators allow a fused material deposition rate that is ...
Automatic CAD-guided optimal tool planning has many applications in surface manufacturing, such as s...
Traditional extrusion based Additive Manufacturing (AM) is realized using a 3 Degrees of Freedom (DO...
Cladding through laser metal deposition is a promising application of additive manufacturing. On the...
Metal deposition processing is well known for cladding by laser or welding process. Nevertheless, ...
Robot programming is still an expert dependent and not automatically optimized task. In order to mak...
In the operation of a broad range of industrial processes, the uses of robots whose trajectories are...
International audienceThe paper presents a new computational technique for the manufacturing process...
A motion planning strategy was developed and implemented to generate motion control instructions fro...
Due to its high design freedom and flexibility, Additive Manufacturing is often used as an alternati...
Design optimization for Additive Manufacturing is demonstrated by the example of an industrial robot...
Previous algorithms for slicing, path planning or trajectory planning of additive manufacturing cann...
Surface finishing tasks such as grinding or sanding are tedious tasks for highly skilled craftsmen a...
Additive manufacturing through Directed Energy Deposition (DED) enables small batches of parts to be...
Metal deposition is an additive layered manufacturing process that deposits molten metal droplets on...
Industrial extruders mounted on robotic manipulators allow a fused material deposition rate that is ...
Automatic CAD-guided optimal tool planning has many applications in surface manufacturing, such as s...
Traditional extrusion based Additive Manufacturing (AM) is realized using a 3 Degrees of Freedom (DO...