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4703108 
Journal Article 
Anisotropic mechanical properties of fused deposition modeled parts fabricated by using acrylonitrile butadiene styrene polymer 
Rybachuk, M; Mauger, CA; Fiedler, T; Ochsner, A 
2017 
Yes 
Journal of Polymer Engineering
ISSN: 0334-6447 
WALTER DE GRUYTER GMBH 
BERLIN 
37 
699-706 
WOS:000408752900006 
The anisotropic mechanical properties of parts that are fabricated using acrylonitrile butadiene styrene (ABS) polymer relative to part-built orientation employing the fused deposition modelling process are reported in this work. ABSplus-P430 polymer was used to investigate the effects of infill orientation on the parts' mechanical properties under tensile and compression loading. Results revealed that infill orientation strongly affected the tensile properties of fabricated ABS samples. Specifically, the values for Young's modulus ranged from similar to 1.5 to similar to 2.1 GPa, ultimate tensile strength from similar to 12.0 to similar to 22.0 MPa, yield strength from similar to 1.0 to similar to 21.0 MPa, and elongation-at-break from similar to 0.2 to similar to 4.8% for different infill orientations. Samples with infill orientation aligned to the vertical (i.e. Z-) axis displayed the highest values relative to all other infill orientations investigated. Mechanical properties anisotropy was lower for parts under compressive loading, such that the Young's modulus, ultimate compressive and yield strength were weakly correlated with infill orientation apart from samples whose built orientation was aligned at 45 degrees to the vertical Z-axis. The latter samples displayed inferior mechanical properties under all compressive tests. The effects of sample gauge thickness on tensile properties and ABS sample micro-and bulk-hardness with respect to infill orientation are also discussed. 
acrylonitrile butadiene styrene polymer; disordered solids; fused deposition modelling; mechanical properties anisotropy; mechanical properties of solids