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Title: ANALIZA VPLIVA RAZLIČNIH FDM 3D TISKALNIKOV NA MEHANSKE LASTNOSTI PLA IN PLA+CF MATERIALOV Authors: ID Papež, Vid (Author) ID Hozdić, Elvis (Mentor) More about this mentor... Files: 101$$diplomska_naloga_vid_papez.pdf (3,00 MB) MD5: 48F8C12A42798A263F1AC3C85BFBC6A3   Language: Slovenian Work type: Bachelor thesis/paper Organization: UNM FS - University of Novo mesto - Faculty of Mechanical engineering Abstract: Diplomska naloga preučuje, kako različni 3D-tiskalniki FDM vplivajo na mehanske lastnosti natisnjenih vzorcev iz materialov PLA in PLA+CF. Raziskava vključuje analizo vzorcev z različnimi gostotami izpolnitve (100 %, 60 % in 30 %), pri čemer so bili preizkusni vzorci natisnjeni na različnih tiskalnikih in testirani glede natezne trdnosti, modula elastičnosti, maksimalne sile in deformacije. Rezultati kažejo, da na mehanske lastnosti natisnjenih izdelkov ne vpliva zgolj izbira materiala in parametrov tiskanja, temveč tudi specifične lastnosti posameznega tiskalnika. Ugotovitve so ključne za industrijsko uporabo, saj poudarjajo pomen pravilne izbire tiskalnika za zagotavljanje optimalnih mehanskih lastnosti izdelkov. Raziskava tako prispeva k boljšemu razumevanju tehnologije FDM pri 3D-tiskanju in omogoča optimizacijo tiskalnih parametrov za razvoj izdelkov z izboljšano mehansko zmogljivostjo. Keywords: aditivna proizvodnja, FDM, 3D, PLA material, PLA+CF material, mehanske lastnosti Year of publishing: 2025 PID: 20.500.12556/ReVIS-11496  Publication date in ReVIS: 06.03.2025 Views: 131 Downloads: 0 Metadata:    Cite this work Plain text BibTeX EndNote XML EndNote/Refer RIS ABNT ACM Ref AMA APA Chicago 17th Author-Date Harvard IEEE ISO 690 MLA Vancouver : Copy citation

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Language:	English
Title:	ANALYSIS OF THE INFLUENCE OF DIFFERENT FDM 3D PRINTERS ON THE MECHANICAL PROPERTIES OF PLA AND PLA+CF MATERIALS
Abstract:	The thesis investigates the impact of different FDM 3D printers on the mechanical properties of printed specimens made from PLA and PLA+CF materials. The study encompasses an in-depth analysis of samples with varying infill densities (100%, 60%, and 30%), which were fabricated using different 3D printers and subsequently subjected to testing for tensile strength, modulus of elasticity, maximum force, and deformation. The findings reveal that the mechanical properties of printed components are influenced not only by material selection and printing parameters but also by the unique characteristics of each printer. These insights are particularly significant for industrial applications, as they underscore the importance of selecting an appropriate printer to ensure optimal mechanical performance of the final products. This research contributes to a more comprehensive understanding of FDM 3D printing technology and facilitates the optimization of printing parameters for the development of high-performance printed components.
Keywords:	additive manufacturing, FDM, 3D, PLA material, PLA+CF material, mechanical properties

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