Experimental, computational, and dimensional analysis of the mechanical performance of fused filament fabrication parts
Author
Other authors
Publication date
2021-05-27ISSN
2073-4360
Abstract
Process parameters in Additive Manufacturing (AM) are key factors in the mechanical performance of 3D-printed parts. In order to study their effect, a three-zone model based on the printing pattern was developed. This modelization distinguished three different zones of the 3D-printed part, namely cover, contour, and inner; each zone was treated as a different material. The cover and contour zones were characterized via uniaxial tensile tests and the inner zones via computational homogenization. The model was then validated by means of bending tests and their corresponding computational simulations. To reduce the number of required characterization experiments, a relationship between the raw and 3D-printed material was established by dimensional analysis. This allowed describing the mechanical properties of the printed part with a reduced set of the most influential non-dimensional relationships. The influence on the performance of the parts of inter-layer adhesion was also addressed in this work via the characterization of samples made of Polycarbonate Acrylonitrile Butadiene Styrene (ABS/PC), a polymeric material well known for its poor adhesion strength. It was concluded that by using this approach, the number of required testing configurations could be reduced by two thirds, which implies considerable cost savings.
Document Type
Article
Document version
Published version
Language
English
Subject (CDU)
66 - Chemical technology. Chemical and related industries
Keywords
Additive manufacturing
Material characterization
Transverse isotropy
Adhesion
Mechanical properties
Computational homogenization
Pages
18 p.
Publisher
MDPI
Is part of
Polymers
Grant agreement number
info:eu-repo/grantAgreement/EC/678151
info:eu-repo/grantAgreement/MICINN/PN I+D/RTI2018-094734-B-C22
info:eu-repo/grantAgreement/SUR del DEC/SGR/2017SGR 01559
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Rights
© L'autor/a
Except where otherwise noted, this item's license is described as http://creativecommons.org/licenses/by/4.0/