Svojstva i vizualna analiza proizvoda otisnutih 3D tiskom

Zeljko, Ivan (2016) Svojstva i vizualna analiza proizvoda otisnutih 3D tiskom. Master's thesis - Graduate Programme. Grafički fakultet. [Mentor: Matijević, Mile].

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Abstract

Nove tehnologije i nove inovacije stvorile su novu 3D tisak tehnologiju. Pojavom 3D tehnologije tiska na tržištu, polako se počeo mijenjati odnos industrije prema proizvodnji. Sve veća uporaba ove tehnologije definitivno ugrožava tradicionalnu konvencionalnu metodu proizvodnje. Mnogi stručnjaci 3D tehnologiju tiska oslovljavaju kao „treća industrijska revolucija“. S takvom reputacijom na svjetskom tržištu rijetko se koja industrijska grana može pohvaliti, pa je potencijal velik. S toga se ovaj rad odnosi upravo na istraživanje i mogućnosti 3D ili aditivne tehnologije tiska kroz nove materijale. To su kompozitni materijali većinom na bazi polimera koji sa drugim kompozitnim materijalom daju poseban efekt imitacije. Cilj ovog rada bio je utvrđivanje kvalitete i mogućnosti materijala s efektima, FDM tehnologijom tiska. Materijali s efektima su se pokazali kao prava revolucija među materijalima za 3D tisak, ne samo zbog efekata nego zbog kvaliteta i načina primjene. FDM tehnologija se pokazala kao jednostavna, stabilna i sigurna opcija tiska. Metodologija rada se odnosi na teorijski i praktični dio u kojem se pored eksperimenta sa 3D tiskom odradila i anketa o dobivenim proizvodima. U radu se također prikazuju najpopularnije i nabolje tehnike tiska, nove inovacije i nove kombinacije materijala. Istaknuti treba metal kao najbrže rastući materijal u 3D tisku. Obzirom na relativno kratku povijest ove tehnologije, razvilo se jako puno tehnologija i materijala, a materijali s efektima upravo daju novi obol, pa se postavlja hipoteza da takvi materijali pored sposobnosti izrade replika, mogu iznijeti vrlo kvalitetne i estetski lijepe materijale koji su i jeftiniji od običnih.

Item Type: Master's thesis - Graduate Programme
Mentor name: Matijević, Mile
Thesis Committee: Mikota, Miroslav and Matijević, Mile and Mrvac, Nikola
Defence date: 23 September 2016
Abstract in english: New technologies and new innovations have created new 3D printing technology. With the advent of 3D printing technology on the market, slowly began to change the industry approach to production. The increasing use of this technology is definitely endangering traditional conventional production method. Many experts 3D printing technology are referred to as the "third industrial revolution". With such a reputation on the world market is seldom that industrial sector boasts, but the potential is huge. Therefore, this article refers to research the possibilities of 3D printing or additive technology through the new material. These are composite materials mostly based polymers with other composite materials give a special effect imitation. The aim of this study was to determine the quality and possibilities of materials with effects, FDM technology press. Materials from the effects have proved to be a real revolution among the materials for 3D printing, not only because of the effects but because of the quality and methods of application. FDM technology is proven to be fast, stable and secure option press. The methodology of work refers to the theory and practice which in addition to experiment with 3D printing and did a survey of compensating products. The paper also shows the most popular and better printing techniques, new innovations and new combinations of materials. Prominent be metal as the fastest growing material in 3D printing. Given the relatively short history of the technology, developed a lot of technology and materials, and materials with effects just make new contribution, which raises the hypothesis that such materials in addition to the ability of making a replica, can bring high-quality, aesthetically pleasing materials that are cheaper than ordinary.
Uncontrolled Keywords: 3D tisak, materijali s efektima, prototipovi, polimeri
Keywords in english: 3D printing, materials with effects, prototypes, polymers
Subjects: TECHNICAL SCIENCES > Graphic Technology
Institution: Grafički fakultet
City: Zagreb
Number of Pages: 80
Callnumber: MAT 2016 ZELJ
Inventory number: DB542
Depositing User: Nina Jelača
Status: Unpublished
Date Deposited: 04 Nov 2016 09:47
Last Modified: 04 Nov 2016 09:47
URI: http://eprints.grf.unizg.hr/id/eprint/2595

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