Free directional robotic deposition - influence on overhang printability

článek v časopise ve Web of Science, Jimp

en

This article deals with a 3D printing strategy to reduce supports in the case of overhang geometry on 3D printed models realized by Fused Filament Fabrication (FFF). Experiments were performed to compare the conventional FFF proces (normal orientation to the platform) with a novel strategy of 3D printing using 6-axisi degrees of freedom to orient the nozzle close to the tangent direction of the 3D printed wall. The shape accuracy of the printed specimens was evaluated by an optical 3D scanner and the cross sections of the layers were observed by a digital microscope.

This article deals with a 3D printing strategy to reduce supports in the case of overhang geometry on 3D printed models realized by Fused Filament Fabrication (FFF). Experiments were performed to compare the conventional FFF proces (normal orientation to the platform) with a novel strategy of 3D printing using 6-axisi degrees of freedom to orient the nozzle close to the tangent direction of the 3D printed wall. The shape accuracy of the printed specimens was evaluated by an optical 3D scanner and the cross sections of the layers were observed by a digital microscope.

3D priting strategy, 6-axis 3D printing, robotic 3D printing, fused filament fabrication, FFF, PLA, spiral vase, KUKA PRC, Grasshopper

12.12.2018

MM (Modern Machinery) Science Journal

CZ

1805-0476

2018

12

2715–2721

7