Effect of Infill Type and Density on Tensile Properties of PLA Material for FDM Process
Apstrakt
Fused deposition modeling (FDM) is a rapidly growing additive manufacturing technology for various applications in
field of engineering. Mechanical properties of 3D printed materials in FDM technology depend on various parameters.
Literature suggests that type and density of infill are parameters that affecting the mechanical properties of 3D printed
materials, and also have direct influence on 3D printing time and amount of 3D printed material. In this paper influence
of infill type and density on tensile properties, 3D printing time and amount of 3D printed material will be investigated
and presented. Total of 13 different types of infill and for every type it will be tested 9 specimens with different infill
density from 10% to 90%. Every specimen would be 3D printed of PLA material with same colour and 3D printing
parameters, also at the same position on printer bed to maximally reduce influence of other factors on mechanical
properties of material. The obtained results woul...d give us a wider picture of how to maximally save on 3D printing time
and amount of material consumed in the production, but to still keep required tensile properties.
Ključne reči:
Material / Infill / PLA / FDM / 3D PrintIzvor:
Proceedings of the 30th DAAAM International Symposium, 2019, 545-554Izdavač:
- DAAAM International
Kolekcije
Institucija/grupa
Inovacioni centarTY - CONF AU - Pandžić, Adi AU - Hodžić, Damir AU - Milovanović, Aleksa PY - 2019 UR - https://machinery.mas.bg.ac.rs/handle/123456789/7192 AB - Fused deposition modeling (FDM) is a rapidly growing additive manufacturing technology for various applications in field of engineering. Mechanical properties of 3D printed materials in FDM technology depend on various parameters. Literature suggests that type and density of infill are parameters that affecting the mechanical properties of 3D printed materials, and also have direct influence on 3D printing time and amount of 3D printed material. In this paper influence of infill type and density on tensile properties, 3D printing time and amount of 3D printed material will be investigated and presented. Total of 13 different types of infill and for every type it will be tested 9 specimens with different infill density from 10% to 90%. Every specimen would be 3D printed of PLA material with same colour and 3D printing parameters, also at the same position on printer bed to maximally reduce influence of other factors on mechanical properties of material. The obtained results would give us a wider picture of how to maximally save on 3D printing time and amount of material consumed in the production, but to still keep required tensile properties. PB - DAAAM International C3 - Proceedings of the 30th DAAAM International Symposium T1 - Effect of Infill Type and Density on Tensile Properties of PLA Material for FDM Process EP - 554 SP - 545 DO - 10.2507/30th.daaam.proceedings.074 ER -
@conference{ author = "Pandžić, Adi and Hodžić, Damir and Milovanović, Aleksa", year = "2019", abstract = "Fused deposition modeling (FDM) is a rapidly growing additive manufacturing technology for various applications in field of engineering. Mechanical properties of 3D printed materials in FDM technology depend on various parameters. Literature suggests that type and density of infill are parameters that affecting the mechanical properties of 3D printed materials, and also have direct influence on 3D printing time and amount of 3D printed material. In this paper influence of infill type and density on tensile properties, 3D printing time and amount of 3D printed material will be investigated and presented. Total of 13 different types of infill and for every type it will be tested 9 specimens with different infill density from 10% to 90%. Every specimen would be 3D printed of PLA material with same colour and 3D printing parameters, also at the same position on printer bed to maximally reduce influence of other factors on mechanical properties of material. The obtained results would give us a wider picture of how to maximally save on 3D printing time and amount of material consumed in the production, but to still keep required tensile properties.", publisher = "DAAAM International", journal = "Proceedings of the 30th DAAAM International Symposium", title = "Effect of Infill Type and Density on Tensile Properties of PLA Material for FDM Process", pages = "554-545", doi = "10.2507/30th.daaam.proceedings.074" }
Pandžić, A., Hodžić, D.,& Milovanović, A.. (2019). Effect of Infill Type and Density on Tensile Properties of PLA Material for FDM Process. in Proceedings of the 30th DAAAM International Symposium DAAAM International., 545-554. https://doi.org/10.2507/30th.daaam.proceedings.074
Pandžić A, Hodžić D, Milovanović A. Effect of Infill Type and Density on Tensile Properties of PLA Material for FDM Process. in Proceedings of the 30th DAAAM International Symposium. 2019;:545-554. doi:10.2507/30th.daaam.proceedings.074 .
Pandžić, Adi, Hodžić, Damir, Milovanović, Aleksa, "Effect of Infill Type and Density on Tensile Properties of PLA Material for FDM Process" in Proceedings of the 30th DAAAM International Symposium (2019):545-554, https://doi.org/10.2507/30th.daaam.proceedings.074 . .