Investigation of the Printing Parameters Influence on the Bond Lines Length in Fused Filament Fabrication

2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP) Pub Date : 2020-11-09 DOI:10.1109/NAP51477.2020.9309668

Larysa Hurina, Y. Vyshnepolskyi, D. Pavlenko, D. Stepanov

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Abstract

The study results of the cross sectional profile geometry of extruded strand in fused filament fabrication (FFF) were presented. It was obtained that the plane characterized by the shortest time of deposition of two layers represented the longest contact lines between them. It was established that the length of contact line between the layers was different in the early and late stages of deposition. The length of the lines was influenced by heat transfer between adjacent strands. The length of the intra-layer lines increased with increasing printing speed due to the acceleration of diffusion processes from additional heating during deposition of the next layer. The rational printing speed was 20 $mm/s$. The relationship between the accuracy of printed layer and value of extrusion multiplier was established. As it increased, porosity of layer decreased, but the accuracy of material deposition significantly deteriorated. The rational value of extrusion multiplier was 1, in this case minimum porosity was obtained with sufficient printing accuracy.

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熔丝加工中打印参数对键合线长度影响的研究

介绍了熔融长丝加工(FFF)中挤压股的截面几何形状的研究结果。结果表明，两层沉积时间最短的平面代表两层之间最长的接触线。结果表明，沉积前期和后期各层间接触线长度不同。线的长度受相邻线之间的热传递的影响。层内线的长度随着打印速度的增加而增加，这是由于在下一层沉积过程中额外加热加速了扩散过程。合理的印刷速度为20毫米/秒。建立了打印层精度与挤出倍增器值之间的关系。随着它的增加，层的孔隙率降低，但材料沉积的精度明显下降。挤出倍率的合理值为1，在此情况下获得最小的孔隙率，并具有足够的打印精度。

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2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP)

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