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Trajnostna predelava umetnih mas za zeleno prihodnost
ID Šenica, David (Author), ID Valentinčič, Joško (Mentor) More about this mentor... This link opens in a new window, ID Lebar, Andrej (Comentor)

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Abstract
V sodobnem obdobju, ko je ozaveščanje o ohranjanju okolja na izjemno visokem nivoju, se celotna industrijska panoga sooča z novimi izzivi. Avtomobilska industrija je še posebej izpostavljena na področju optimizacije procesov, kot so zmanjševanje mase komponent, recikliranje izdelkov, izboljšanje energetske učinkovitosti in podobno. Strategija našega podjetja je izdelovati robustnejše produkte v krajšem času, z manjšo porabo energije in materiala. Z uporabo tehnologije injekcijskega brizganja s penjenjem, nam uspe uresničiti nekatere strateške rešitve, obenem pa si prizadevamo za nadgradnjo obstoječe tehnologije v našem podjetju. Za testiranje tehnologije brizganja s penjenjem smo uporabili serijsko orodje ohišje žarometa, brez dodatnih optimizacij. Razlog za izbiro tega specifičnega izdelka je bila njegova velika masa, različne debeline sten ter prisotnost številnih fiksacijskih elementov, ki lahko povzročijo deformacijo zaradi neenakomernega ohlajanja. Testiranje smo izvedli na brizgalnem stroju, ki je bil nadgrajen s tehnologijo MuCell®, kjer smo spreminjali koncentracijo dušika v mešanici polimera. Merili smo maso izdelka, hkrati pa smo opravili dimenzijske meritve vseh vzorcev. Raziskava je pokazala, da je s pomočjo tehnologije penjenja MuCell® mogoče znižati maso izdelka v povprečju za pet odstotkov, obenem pa izboljšati dimenzijsko ponovljivost v kritičnih področjih izdelka za kar petdeset odstotkov.

Language:Slovenian
Keywords:Penjenje, Tehnologija Mucell, Dušik, Polipropilen, Ekologija, Trajnost, Dimenzijska ponovljivost
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FS - Faculty of Mechanical Engineering
Place of publishing:Ljubljana
Publisher:[D. Šenica]
Year:2023
Number of pages:XX, 54 str.
PID:20.500.12556/RUL-153363 This link opens in a new window
UDC:678.027.74:66.069.852:502.12(043.2)
COBISS.SI-ID:186031107 This link opens in a new window
Publication date in RUL:23.12.2023
Views:992
Downloads:67
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Secondary language

Language:English
Title:Sustainable processing of synthetic materials for a greener future
Abstract:
In the modern era, where environmental conservation awareness is at an exceptionally high level, the entire industrial sector is facing new challenges. The automotive industry, in particular, is exposed to the optimization of processes such as component weight reduction, product recycling, improved energy efficiency, and more. Our company's strategy is to manufacture more robust products in a shorter period of time, with lower energy and material consumption. By using foam injection molding technology, we succeed in implementing some strategic solutions while striving to upgrade our existing technology. For testing the foam injection molding technology, we used a production tool for a headlight housing without any additional optimizations. The reason for choosing this specific product was its significant weight, various wall thicknesses, and the presence of numerous fixing elements that can cause deformation due to uneven cooling. The testing was conducted on an injection molding machine that was upgraded with MuCell® technology, where we varied the nitrogen concentration in the polymer mixture. We measured the weight of the product and performed dimensional measurements on all samples. The study showed that, with the help of MuCell® foam technology, it is possible to reduce the product weight on average by five percent while improving dimensional repeatability in critical areas of the product by fifty percent.

Keywords:Foaming, Mucell technology, Nitrogen, Polypropylene, Ecology, Sustainability, Dimensional repeatibility

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