Effect of Material on the Mechanical Properties of Additive Manufactured Thermoplastic Parts

Effect of Material on the Mechanical Properties of Additive Manufactured Thermoplastic Parts

Additive manufacturing (AM) also called 3D printing, is an emerging process in the manufacturing sector with increasing new applications in aerospace, prototyping, medical devices and product development, among others. The resistance of the AM part is determined by the chosen material and the printi...

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Bibliographic Details
Published in:Annals of "Dunărea de Jos" University of Galaţi. Fascicle XII, Welding Equipment and Technology Vol. 31; pp. 5 - 12
Main Authors: Cavalcanti, D. K. K., Banea, M. D., de Queiroz, H. F. M.
Format: Journal Article
Language:English
Published: Galati Dunarea de Jos University of Galati, Mechanical Engineering Faculty 2020
Galati University Press
Subjects:
3-D printers
abs
ABS resins
Acrylonitrile butadiene styrene
additive manufactured parts
Additive manufacturing
Deformation
Failure
Filaments
Heat resistance
Laboratories
Mechanical properties
Parameters
pla
Polylactic acid
Product development
Prototyping
Stiffness
Tensile strength
Three dimensional printing
tritan
Brazil
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Summary:Additive manufacturing (AM) also called 3D printing, is an emerging process in the manufacturing sector with increasing new applications in aerospace, prototyping, medical devices and product development, among others. The resistance of the AM part is determined by the chosen material and the printing parameters. As novel materials and AM methods are continuously being developed, there is a need for the development and mechanical characterization of suitable materials for 3D printing. In this study, the influence of the material and the 3D-printing parameters on the mechanical properties of additive manufactured thermoplastic parts was investigated. Three different filaments that are commercially available: Polylactic acid (PLA), acrylonitrile butadiene styrene (ABS) and Tritan were used. Tensile and flexural tests were carried out, in accordance to ASTM standards, to investigate and compare the mechanical properties of the AM parts as a function of material used. The results showed that the type of filaments had the greatest influence on the mechanical properties of the AM parts. The maximum strength and stiffness were obtained for the PLA specimens. Tritan displayed the highest deformation, while the PLA manifested the lowest deformation capacity. The mechanical properties of the printed parts also depend on the printing parameters. The parameters used in this work are a good compromise between the printing time and the mechanical properties.
ISSN:1221-4639
2668-6163
DOI:10.35219/awet.2020.01