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dc.contributor.author
Dimitriadis, Ioannis
en
dc.date.accessioned
2018-05-04T09:58:46Z
dc.date.available
2018-05-05T00:00:17Z
dc.date.issued
2018-05-04
dc.identifier.uri
https://repository.ihu.edu.gr//xmlui/handle/11544/29079
dc.rights
Default License
dc.subject
Reverse engineering
en
dc.subject
3D printing
en
dc.subject
Cultural heritage preservation
en
dc.subject
Fused deposition modeling
en
dc.title
Creative Support Structure for Archeological Artifact
en
heal.type
masterThesis
en_US
heal.keywordURI.LCSH
Cultural property--Protection
heal.keywordURI.LCSH
Reverse engineering
heal.keywordURI.LCSH
Computer-aided design
heal.keywordURI.LCSH
Three-dimensional printing
heal.keywordURI.LCSH
Historic preservation--Technological innovations
heal.language
en
en_US
heal.access
free
en_US
heal.license
http://creativecommons.org/licenses/by-nc/4.0
en_US
heal.recordProvider
School of Economics, Business Administration and Legal Studies, MSc in Strategic Product Design
en_US
heal.publicationDate
2018-05-03
heal.abstract
This dissertation was written as part of the MSc in Strategic Product Design at the International Hellenic University. The main goal was to create something that can contribute to the preservation of cultural heritage. A support structure for an ancient amphora-type vase was created. Missing parts of the vase made impossible for it to be stable at its natural position. Reverse engineering technology was used to extract information of the vase’s geometry and design a creative and effective support structure. The proposed solution is a base that has the shape of the external surf ace missing geometry of the vase. Research conducted on existing bases for archeological artifacts and contribution of reverse engineering in archeology field served as source of inspiration and led to the caption of the proposed design idea. After the design process, a prototype was printed using Fused Deposition Modeling (FDM). The material used was Polylactic Acid (PLA). Mechanical test conducted before printing to acquire mechanical properties of PLA and perform static analysis simulations. All the steps followed are described in the next chapters.
en
heal.advisorName
Tzetzis, Dimitrios
el
heal.committeeMemberName
Bilalis, Nikolaos
el
heal.committeeMemberName
Kiratsis, Panagiotis
en
heal.committeeMemberName
Tzetzis, Dimitrios
en
heal.academicPublisher
IHU
en
heal.academicPublisherID
ihu
en_US


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