Using extrusion-based 3D printing technology to investigate the impact of changing print conditions on tensile characteristics

Abstract: Purpose The purpose of this study, most recent advancements in threedimensional (3D) printing have focused on the fabrication of components. It is typical to use different print settings, such as raster angle, infill and orientation to improve the 3D component qualities while fabricating the sample using a 3D printer. However, the influence of these factors on the characteristics of the 3D parts has not been well explored. Owing to the effect of the different print parameters in fused deposition modeling (FDM)… Show more

“…Previous studies have highlighted the anisotropy of 3D-printed parts, specifically when produced by FFF, where the material is extruded in layers [16][17][18][19]. This effect is amplified when printing with composite materials, both short fibre [20][21][22][23] and continuous fibre [24][25][26][27], due to the alignment along the extrusion direction [28].…”

The importance of print orientation in numerical modelling of 3D printed structures under impact loading

“…Previous studies have highlighted the anisotropy of 3D-printed parts, specifically when produced by FFF, where the material is extruded in layers [16][17][18][19]. This effect is amplified when printing with composite materials, both short fibre [20][21][22][23] and continuous fibre [24][25][26][27], due to the alignment along the extrusion direction [28].…”

The importance of print orientation in numerical modelling of 3D printed structures under impact loading

Critical quality indicators of high-performance polyetherimide (ULTEM) over the MEX 3D printing key generic control parameters: Prospects for personalized equipment in the defense industry