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3D printanje in FE analiza termoplastičnih enosmernih kompozitov z dolgimi vlakni
ID Trofenik, Andrej (Author), ID Oman, Simon (Mentor) More about this mentor... This link opens in a new window, ID Nagode, Marko (Comentor)

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Abstract
V nalogi obravnavamo vpliv tehnologije 3D tiskanja termoplastičnih kompozitov, ojačanih z dolgimi enosmernimi steklenimi vlakni na natezno in upogibno trdnost, ter primerjamo rezultate, dobljene z eksperimentalnim testiranjem in numeričnim simuliranjem. V prvem delu naloge smo analizirali materialne lastnosti osnovnega materiala in vlaken. Določili smo materialne parametre in izračunali elastične parametre za popis ortotropnih lastnosti ojačitvenih vlaken s semiempiričnim Chamijevim modelom. Zatem smo določili geometrijo testnih preizkušancev, kjer smo opazovali vpliv tiskane smeri, in geometrijo kompozitnih preizkušancev, pri katerih smo upoštevali izmenično in zgoščeno razporeditev ojačitev po prerezu. Nastale natisnjene preizkušance smo obremenjevali na nateg in upogib ter opazovali njihov odziv. Dobljene rezultate smo primerjali z rezultati numeričnih simulacij, kjer smo vrednotili ojačitve z metodo membran, metodo nosilcev in metodo kompozitne postavitve. S primerjavo rezultatov smo ugotovili, da ima tehnologija 3D tiskanja velik vpliv na končno trdnost kompozita, kjer zaradi šibkega stika med matrico in vlaknom prihaja do razslojevanja.

Language:Slovenian
Keywords:3D tiskanje, termoplastični kompoziti, dolga enosmerna vlakna, steklena vlakna, FE analiza, numerična simulacija
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[A. Trofenik]
Year:2023
Number of pages:XXII, 83 str.
PID:20.500.12556/RUL-147116 This link opens in a new window
UDC:004.925.84:621.79:678.073(043.2)
COBISS.SI-ID:156607491 This link opens in a new window
Publication date in RUL:23.06.2023
Views:915
Downloads:80
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Secondary language

Language:English
Title:3D printing and FE analysis of thermoplastic unidirectional composites with long fibers
Abstract:
We investigate the impact of 3D printing technology of thermoplastic composites reinforced with long unidirectional glass fibers on the tensile and bending strength, where we compare the results obtained by experimental testing and numerical simulation. In the first part of the assignment, we analysed the material properties of the base material and fibers. We determined the material parameters and calculated the elastic parameters for orthotropic properties of the reinforcing fibers using the semi-empirical Chamis model. After that, we determined the geometry of the test specimens, where we observed the influence of the printed direction, and the geometry of the composite specimens, where we considered the alternating and condensed distribution of reinforcements across the cross-section. The resulting printed test pieces were subjected to tension and bending, and their response was observed. The obtained results were compared with the results of numerical simulations, where reinforcements were evaluated using the membrane method, the beam method and the composite layout method. By comparing the results, we found that the 3D printing technology has a great influence on the final strength of the composite, where delamination occurs due to the weak contact between the matrix and the fiber.

Keywords:3D printing, thermoplastic composites, long unidirectional fibers, glass fibers, FE analysis, numerical simulation

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