Exploring 3D printing techniques for the hybrid fabrication of discrete topology optimized structures

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dc.contributor.author Mauricio Morales-Beltran
dc.contributor.author Berk Selamoğlu
dc.contributor.author Kaan Çetin
dc.contributor.author Halis Arda Özdemir
dc.contributor.author Fulya Özbey
dc.contributor.author Ozdemir, Halis Arda
dc.contributor.author Ozbey, Fulya
dc.contributor.author Morales-Beltran, Mauricio
dc.contributor.author Cetin, Kaan
dc.contributor.author Selamoglu, Berk
dc.date.accessioned 2025-10-06T17:49:58Z
dc.date.issued 2022
dc.description.abstract The application of topology optimization methods in architecture while useful for conceptual design explorations seems to be limited by the practical realization of continuum-type design outcomes. One way to overcome this limitation is setting up design and fabrication techniques through which continuum domains become discrete structures. This study investigates to which extent discrete optimized systems can be built using a hybrid approach combining 3D printing and analogue fabrication techniques. The procedure is based on an algorithm in Grasshopper (Rhinoceros) that translates continuum topologies obtained in MATLAB into discrete systems providing alternatives depending on the targeted volume fraction the intended surface smoothness of the structural components and building material. The study focuses on fabrication aspects and structural performance of discrete structures using 3D printed nodes. Experimental tests evaluate the compressive strength of different types of filaments with varied infill percentages. Final prototypes are fabricated using a hybrid technique involving the use of 3D printed nodes to assemble bar-arrays comprising wooden members. Results provide a critical appraisal of the limitations and potentialities of 3D printing for hybrid fabrication of real scale structures. © 2022 Elsevier B.V. All rights reserved.
dc.description.sponsorship The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The work presented in this paper was funded by Yasar University Project Evaluation Commission (PDK) with the project BAP078 Exploring additive manufacturing technologies for the realization of continuum and discrete topology optimized structures.
dc.description.sponsorship Yaşar University Project Evaluation Commission, (BAP078)
dc.description.sponsorship Yasar University Project Evaluation Commission (PDK) [BAP078]
dc.description.sponsorship The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: The work presented in this paper was funded by Yaşar University Project Evaluation Commission (PDK) with the project BAP078 “Exploring additive manufacturing technologies for the realization of continuum and discrete topology optimized structures”.
dc.identifier.doi 10.1177/14780771211039084
dc.identifier.issn 14780771
dc.identifier.issn 1478-0771
dc.identifier.issn 2048-3988
dc.identifier.scopus 2-s2.0-85113798960
dc.identifier.uri https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113798960&doi=10.1177%2F14780771211039084&partnerID=40&md5=dc286090276d5f931f17b5bb6044457c
dc.identifier.uri https://gcris.yasar.edu.tr/handle/123456789/8712
dc.identifier.uri https://doi.org/10.1177/14780771211039084
dc.language.iso English
dc.publisher SAGE Publications Inc.
dc.relation.ispartof International Journal of Architectural Computing
dc.rights info:eu-repo/semantics/closedAccess
dc.source International Journal of Architectural Computing
dc.subject Conceptual Design, Digital Fabrication, Discrete Structures, Material Hybridity, Petg, Pla, Topology Optimization, Compressive Strength, Conceptual Design, Fabrication, Optimization, Structural Analysis, Topology, Continuum Topology, Design Exploration, Fabrication Aspects, Fabrication Technique, Optimized Structures, Structural Component, Structural Performance, Topology Optimization Method, 3d Printers
dc.subject Compressive strength, Conceptual design, Fabrication, Optimization, Structural analysis, Topology, Continuum topology, Design Exploration, Fabrication aspects, Fabrication technique, Optimized structures, Structural component, Structural performance, Topology Optimization Method, 3D printers
dc.subject Digital Fabrication
dc.subject Conceptual Design
dc.subject Discrete Structures
dc.subject Material Hybridity
dc.subject PLA
dc.subject Topology Optimization
dc.subject PETG
dc.title Exploring 3D printing techniques for the hybrid fabrication of discrete topology optimized structures
dc.type Article
dspace.entity.type Publication
gdc.author.id Morales-Beltran, Mauricio/0000-0003-4883-4314
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gdc.author.wosid Morales-Beltran, Mauricio/AAB-7194-2020
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gdc.description.department
gdc.description.departmenttemp [Morales-Beltran, Mauricio; Selamoglu, Berk; Cetin, Kaan; Ozdemir, Halis Arda] Yasar Univ, Fac Architecture, Dept Architecture, Univ Caddesi 37-39, TR-35100 Izmir, Turkey; [Ozbey, Fulya] Yasar Univ, Fac Architecture, Dept Interior Architecture, Izmir, Turkey
gdc.description.endpage 419
gdc.description.issue 2
gdc.description.publicationcategory Makale - Uluslararası Hakemli Dergi - Kurum Öğretim Elemanı
gdc.description.startpage 400
gdc.description.volume 20
gdc.description.woscitationindex Emerging Sources Citation Index
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gdc.virtual.author Morales Beltran, Mauricio Gabriel
gdc.virtual.author Özbey, Fulya
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oaire.citation.endPage 419
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person.identifier.scopus-author-id Morales-Beltran- Mauricio (55652982900), Selamoğlu- Berk (57237650400), Çetin- Kaan (57237367900), Özdemir- Halis Arda (57237100900), Özbey- Fulya (57236820200)
project.funder.name The author(s) disclosed receipt of the following financial support for the research authorship and/or publication of this article: The work presented in this paper was funded by Yaşar University Project Evaluation Commission (PDK) with the project BAP078 “Exploring additive manufacturing technologies for the realization of continuum and discrete topology optimized structures”.
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