Assessment of the mechanical properties of PC/ABS blends for functional prototyping by FFF 3D printing

Abstract: Purpose This paper aims to evaluate the mechanical behaviour of polycarbonate/acrylonitrile butadiene styrene (PC/ABS) filaments for fusion filament fabrication (FFF). PC/ABS have emerged as a promising material for FFF due to their excellent mechanical properties. However, the optimal processing conditions and the effect of the blending ratio on the mechanical properties of the resulting workpieces are still unclear. Design/methodology/approach A statistical factorial matrix was designed, including infill p… Show more

“…Printing parameters, especially layer height, nozzle temperature, and material flow, are the most important factors for ensuring the quality and strength of the part [35]. The printing speed and melted plastics flow rate was limited to 100 mm/s and 10 mm 3 /s to ensure that the results were affected as little as possible by other factors [36]. The negative impact of ambient temperature variation on the results when printing PLA is known [37].…”

Experimental Comparison of Fastener Implementation Approaches in Fused Deposition Modeling

“…Printing parameters, especially layer height, nozzle temperature, and material flow, are the most important factors for ensuring the quality and strength of the part [35]. The printing speed and melted plastics flow rate was limited to 100 mm/s and 10 mm 3 /s to ensure that the results were affected as little as possible by other factors [36]. The negative impact of ambient temperature variation on the results when printing PLA is known [37].…”

Experimental Comparison of Fastener Implementation Approaches in Fused Deposition Modeling

The impact of injection molding process parameters on mechanical properties and microstructure of PC/ABS blends using Taguchi approach

Optimizing mechanical properties of 3D-printed aramid fiber-reinforced polyethylene terephthalate glycol composite: A systematic approach using BPNN and ANOVA