The manufacturing technology of 3D printed models on various materials using the fused deposition modeling process
Tehnologija proizvodnje 3d štampanih modela na različitim materijalima korišćenjem procesa fuzionog taloženja materijala
Članak u časopisu (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
The joining of thermoplastic and textile materials is gaining more and more importance
today. New combinations of materials and new structures that change
fashion trends are obtained. The paper presents the technology of joining thermoplastic
materials with different fabrics. For example, the realization of a button on
textiles and the description of 3D printing were taken. This pioneering venture describes
the technology, fabric model-making process, and materials melting bond
analysis. Unfortunately, available thermoplastic materials have many limitations
regarding durability, aging, and service life according to the defined requirements.
The idea of this paper is the application of 3D printing in the fashion industry as
an emerging topic for discussion. The experimental part of this investigation will
provide a new guideline for designers of PLA/ABS printing elements on textile
substrates and possibility for application in modern textile design.
Spajanje termoplastičnih i tekstilnih materijala danas dobija sve veći značaj. Dobijaju se nove kombinacije materijala i nove strukture koje menjaju modne trendove. U radu je prikazana tehnologija spajanja termoplastičnih materijala sa različitim tkaninama. Na primer, uzeta je realizacija dugmeta na tekstilu i opis 3D štampe. Ovaj pionirski poduhvat opisuje tehnologiju, proces izrade modela tkanine i analizu veze topljenja materijala. Nažalost, dostupni termoplastični materijali imaju mnoga ograničenja u pogledu izdržljivosti, starenja i veka trajanja prema definisanim zahtevima. Ideja ovog rada je primena 3D štampe u modnoj industriji kao tema za diskusiju u nastajanju. Eksperimentalni deo ovog istraživanja će dati novu smernicu za dizajnere PLA/ABS štampanih elemenata na tekstilnim podlogama i mogućnost primene u modernom dizajnu tekstila
Ključne reči:
additive technology / thermoplastic polymer / textile / 3D printing / model / aditivna tehnologija / termoplastični polimeri / tekstil / 3d štampaIzvor:
Advanced Technologies, 2023, 12, 2, 49-55Izdavač:
- University of Niš, Faculty of Technology Leskovac
Finansiranje / projekti:
- Ministarstvo nauke, tehnološkog razvoja i inovacija Republike Srbije, institucionalno finansiranje - 200026 (Univerzitet u Beogradu, Institut za hemiju, tehnologiju i metalurgiju - IHTM) (RS-MESTD-inst-2020-200026)
Institucija/grupa
IHTMTY - JOUR AU - Vorkapić, Miloš AU - Mladenović, Ivana AU - Vićentić, Teodora AU - Tanasković, Dragan AU - Nešić, Dušan PY - 2023 UR - https://cer.ihtm.bg.ac.rs/handle/123456789/7107 AB - The joining of thermoplastic and textile materials is gaining more and more importance today. New combinations of materials and new structures that change fashion trends are obtained. The paper presents the technology of joining thermoplastic materials with different fabrics. For example, the realization of a button on textiles and the description of 3D printing were taken. This pioneering venture describes the technology, fabric model-making process, and materials melting bond analysis. Unfortunately, available thermoplastic materials have many limitations regarding durability, aging, and service life according to the defined requirements. The idea of this paper is the application of 3D printing in the fashion industry as an emerging topic for discussion. The experimental part of this investigation will provide a new guideline for designers of PLA/ABS printing elements on textile substrates and possibility for application in modern textile design. AB - Spajanje termoplastičnih i tekstilnih materijala danas dobija sve veći značaj. Dobijaju se nove kombinacije materijala i nove strukture koje menjaju modne trendove. U radu je prikazana tehnologija spajanja termoplastičnih materijala sa različitim tkaninama. Na primer, uzeta je realizacija dugmeta na tekstilu i opis 3D štampe. Ovaj pionirski poduhvat opisuje tehnologiju, proces izrade modela tkanine i analizu veze topljenja materijala. Nažalost, dostupni termoplastični materijali imaju mnoga ograničenja u pogledu izdržljivosti, starenja i veka trajanja prema definisanim zahtevima. Ideja ovog rada je primena 3D štampe u modnoj industriji kao tema za diskusiju u nastajanju. Eksperimentalni deo ovog istraživanja će dati novu smernicu za dizajnere PLA/ABS štampanih elemenata na tekstilnim podlogama i mogućnost primene u modernom dizajnu tekstila PB - University of Niš, Faculty of Technology Leskovac T2 - Advanced Technologies T1 - The manufacturing technology of 3D printed models on various materials using the fused deposition modeling process T1 - Tehnologija proizvodnje 3d štampanih modela na različitim materijalima korišćenjem procesa fuzionog taloženja materijala VL - 12 IS - 2 SP - 49 EP - 55 DO - 10.5937/savteh2302049V ER -
@article{ author = "Vorkapić, Miloš and Mladenović, Ivana and Vićentić, Teodora and Tanasković, Dragan and Nešić, Dušan", year = "2023", abstract = "The joining of thermoplastic and textile materials is gaining more and more importance today. New combinations of materials and new structures that change fashion trends are obtained. The paper presents the technology of joining thermoplastic materials with different fabrics. For example, the realization of a button on textiles and the description of 3D printing were taken. This pioneering venture describes the technology, fabric model-making process, and materials melting bond analysis. Unfortunately, available thermoplastic materials have many limitations regarding durability, aging, and service life according to the defined requirements. The idea of this paper is the application of 3D printing in the fashion industry as an emerging topic for discussion. The experimental part of this investigation will provide a new guideline for designers of PLA/ABS printing elements on textile substrates and possibility for application in modern textile design., Spajanje termoplastičnih i tekstilnih materijala danas dobija sve veći značaj. Dobijaju se nove kombinacije materijala i nove strukture koje menjaju modne trendove. U radu je prikazana tehnologija spajanja termoplastičnih materijala sa različitim tkaninama. Na primer, uzeta je realizacija dugmeta na tekstilu i opis 3D štampe. Ovaj pionirski poduhvat opisuje tehnologiju, proces izrade modela tkanine i analizu veze topljenja materijala. Nažalost, dostupni termoplastični materijali imaju mnoga ograničenja u pogledu izdržljivosti, starenja i veka trajanja prema definisanim zahtevima. Ideja ovog rada je primena 3D štampe u modnoj industriji kao tema za diskusiju u nastajanju. Eksperimentalni deo ovog istraživanja će dati novu smernicu za dizajnere PLA/ABS štampanih elemenata na tekstilnim podlogama i mogućnost primene u modernom dizajnu tekstila", publisher = "University of Niš, Faculty of Technology Leskovac", journal = "Advanced Technologies", title = "The manufacturing technology of 3D printed models on various materials using the fused deposition modeling process, Tehnologija proizvodnje 3d štampanih modela na različitim materijalima korišćenjem procesa fuzionog taloženja materijala", volume = "12", number = "2", pages = "49-55", doi = "10.5937/savteh2302049V" }
Vorkapić, M., Mladenović, I., Vićentić, T., Tanasković, D.,& Nešić, D.. (2023). The manufacturing technology of 3D printed models on various materials using the fused deposition modeling process. in Advanced Technologies University of Niš, Faculty of Technology Leskovac., 12(2), 49-55. https://doi.org/10.5937/savteh2302049V
Vorkapić M, Mladenović I, Vićentić T, Tanasković D, Nešić D. The manufacturing technology of 3D printed models on various materials using the fused deposition modeling process. in Advanced Technologies. 2023;12(2):49-55. doi:10.5937/savteh2302049V .
Vorkapić, Miloš, Mladenović, Ivana, Vićentić, Teodora, Tanasković, Dragan, Nešić, Dušan, "The manufacturing technology of 3D printed models on various materials using the fused deposition modeling process" in Advanced Technologies, 12, no. 2 (2023):49-55, https://doi.org/10.5937/savteh2302049V . .