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Mehanske lastnosti 3D natisnjenih kompozitov na osnovi poliamida in ogljikovih vlaken
ID Klemenc, Anže (Author), ID Slemenik Perše, Lidija (Mentor) More about this mentor... This link opens in a new window

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Abstract
3D tiskanje polimernih kompozitov z vsebnostjo ogljikovih vlaken omogoča možnost hitre izdelave izdelkov brez kalupov, predvsem pa zagotovi ojačitev osnovnega polimera, ki se mu posledično izboljšajo mehanske lastnosti ter njegova funkcionalnost. Vsebnost ogljikovih vlaken v polimerni osnovi je lahko različna, in je odvisna od tega, kakšne materialne lastnosti so zahtevane od 3D natisnjenega modela. Magistrsko delo obsega proučevanje vpliva različne vsebnosti ogljikovih vlaken na termične in mehanske lastnosti 3D natisnjenih polimernih kompozitov. Z izvedbo tri-točkovnega upogibnega testa smo proučevali maksimalno napetost vzorcev z različno vsebnostjo ogljikovih vlaken, ter dinamične mehanske lastnosti z izvedbo dinamične mehanske analize. Prav tako smo proučevali tudi termične lastnosti materialov s pomočjo diferenčne dinamične kalorimetrije, ter z izvedbo reoloških testov tokovne lastnosti talin. Ugotovili smo, da večja vsebnost ogljikovih vlaken ojača polimerno matrico in tako pripomore k višji maksimalni upogibni napetosti materiala, s čimer se poviša togost polimernega kompozita ob dinamični obremenitvi. Pri tem ima ključen pomen usmerjenost ogljikovih vlaken v polimerni matrici glede na smer obremenitve. Prav tako smo ugotovili, da večja vsebnost ogljikovih vlaken poviša temperaturo kristalizacije polimernega kompozita, ter vpliva na povečevanje viskoznosti taline, s povečevanjem strižne napetosti.

Language:Slovenian
Keywords:3D tiskanje, polimerni kompoziti, ogljikova vlakna, dinamične mehanske lastnosti, termične lastnosti, tokovne lastnosti
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[A. Klemenc]
Year:2023
Number of pages:XXII, 66 str.
PID:20.500.12556/RUL-152429 This link opens in a new window
UDC:621.79:004.925.84:678.7:620.174(043.2)
COBISS.SI-ID:174294787 This link opens in a new window
Publication date in RUL:24.11.2023
Views:688
Downloads:51
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Secondary language

Language:English
Title:Mechanical properties of 3D printed composites based on polyamide and carbon fibers
Abstract:
3D printing of polymer composites with carbon fiber content enables rapid manufacturing of various products without using molds, and importantly, reinforces the base polymer, thereby improving its mechanical properties and functionality. The carbon fiber content in the polymer base can vary and depends on the material properties required for the 3D printed model. The master thesis focuses on the study of the influence of different carbon fiber content on the thermal and mechanical properties of 3D printed polymer composites. By conducting a three-point bending test, we examined the maximum stress of samples with varying carbon fiber content and dynamic mechanical properties through dynamic mechanical analysis. We also studied the thermal properties of the materials using differential dynamic calorimetry and flow properties of the melts by conducting a rheological test. The results showed that higher carbon fiber content strengthens the polymer matrix, contributing to the maximum bending stress of the material and increasing its stiffness under dynamic loading. The orientation of carbon fibers in the polymer matrix in relation to the direction of loading is crucial. We also observed that higher carbon fiber content raises the crystallization temperature of the polymer composite and increases the viscosity and shear thinning behaviour of the melted samples.

Keywords:3D printing, polymer composites, carbon fiber, dynamic mechanical properties, thermal properties, flow properties

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