Go to:
Logótipo
Comuta visibilidade da coluna esquerda
Você está em: Start > Publications > View > The influence of infill density gradient on the mechanical properties of PLA optimized structures by additive manufacturing
Publication

The influence of infill density gradient on the mechanical properties of PLA optimized structures by additive manufacturing

Title
The influence of infill density gradient on the mechanical properties of PLA optimized structures by additive manufacturing
Type
Article in International Scientific Journal
Year
2021
Authors
A. I. L. Pais
(Author)
Other
The person does not belong to the institution. The person does not belong to the institution. The person does not belong to the institution. Without AUTHENTICUS Without ORCID
C. Silva
(Author)
Other
The person does not belong to the institution. The person does not belong to the institution. The person does not belong to the institution. Without AUTHENTICUS Without ORCID
M. C. Marques
(Author)
Other
The person does not belong to the institution. The person does not belong to the institution. The person does not belong to the institution. Without AUTHENTICUS Without ORCID
Jorge Belinha
(Author)
Other
The person does not belong to the institution. The person does not belong to the institution. The person does not belong to the institution. Without AUTHENTICUS Without ORCID
Journal
Indexing
Publicação em ISI Web of Knowledge ISI Web of Knowledge - 0 Citations
Publicação em Scopus Scopus - 0 Citations
Other information
Authenticus ID: P-00T-T2F
Abstract (EN): The aim of this work is the development of a novel framework for structural optimization using bio-inspired remodelling algorithm adapted to additive manufacturing. The fact that polylactic acid (PLA, E = 3145 MPa (Young's modulus) according to the supplier for parts obtained by injection) shows a similar parameterized behavior with ductile metals, in the sense that both materials are characterized by a bi-linear elastic-plastic law, allows to simulate and prototype parts to be further constructed in ductile metals at a lower cost and then be produced with more expensive fabrication processes. Moreover, cellular materials allow for a significant weight reduction and therefore reduction of production costs. Structural optimization algorithms based on biological phenomena were used to determine the density distribution of the infill density of the specimens. Several simple structures were submitted to distinct complex load cases and analyzed using the mentioned optimization algorithms combined with the finite element method and a meshless method. The surface was divided according to similar density and then converted to stereolitography files and infilled with the gyroid structure at the desired density determined before, using open-source slicing software. Smoothing functions were used to smooth the density field obtained with the remodeling algorithms. The samples were printed with fused filament fabrication technology and submitted to mechanical flexural tests similar to the ones analyzed analytically, namely three- and four-point bending tests. Thus, the factors of analysis were the smoothing parameter and the remodeling method, and the responses evaluated were stiffness, specific stiffness, maximum force, and mass. The experimental results correlated (obtaining accuracy of 35% for the three-point bending load case and 5% for the four-point bending load case) to the numerical results in terms of flexural stiffness and it was found that the complexity of the load case is relevant for the efficiency of the functional gradient. The fused filament fabrication process is still not accurate enough to be able to experimentally compare the results based of finite element method and meshless method analyses.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 18
Documents
We could not find any documents associated to the publication.
Related Publications

Of the same journal

Untitled (2014)
Another Publication in an International Scientific Journal
da Silva, LFM; Adams, RD
Special Issue: 3rd International Conference on Materials Design and Applications 2020 (MDA 2020) (2021)
Another Publication in an International Scientific Journal
Lucas F. M. da Silva
Special Issue: 2nd International Conference on Materials Design and Applications 2018 (MDA 2018) (2019)
Another Publication in an International Scientific Journal
da Silva, LFM
Special Issue: Laser and friction stir welding (2020)
Another Publication in an International Scientific Journal
da Silva, LFM; Martins, P; El Zein, M; Reisgen, U
Special Issue: Joining by plastic deformation (2022)
Another Publication in an International Scientific Journal
da Silva, LFM; Martins, P; Reisgen, U

See all (77)

Recommend this page Top
Copyright 1996-2024 © Reitoria da Universidade do Porto  I Terms and Conditions  I Acessibility  I Index A-Z  I Guest Book
Page created on: 2024-11-14 09:59:56 | Acceptable Use Policy | Data Protection Policy | Complaint Portal