VPLIV TEMPERATURE NA TEHNOLOŠKI POSTOPEK ODLIVANJA SKOZNJIKOV IZ EPOKSIDNE SMOLE

Tobias Osojnik, Valerija

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Title:	VPLIV TEMPERATURE NA TEHNOLOŠKI POSTOPEK ODLIVANJA SKOZNJIKOV IZ EPOKSIDNE SMOLE
Authors:	ID Tobias Osojnik, Valerija (Author) ID Goršek, Andreja (Mentor) More about this mentor... ID Drofenik, Mihael (Comentor)
Files:	VS_Tobias_Osojnik_Valerija_2012.pdf (1,47 MB) MD5: DA4C800AFC612BCDE526917EBE10D4A4 PID: 20.500.12556/dkum/c83ce143-92f3-4df5-a75b-11499865cdae
Language:	Slovenian
Work type:	Undergraduate thesis
Typology:	2.11 - Undergraduate Thesis
Organization:	FKKT - Faculty of Chemistry and Chemical Engineering
Abstract:	V diplomskem delu opisujemo eksperimentalni postopek določanja optimalnih procesnih pogojev odlivanja skoznjikov iz epoksidne smole. Najpomembnejši parameter v postopkih želiranja, utrjevanja in ohlajanja skoznjikov je temperatura, ki vpliva na skrčke livne mase in raztezke vgradnih komponent. Omenjene postopke smo preučevali pri različnih temperaturah (90, 120 in 140) °C. Izmerili smo tudi temperaturo eksotermne reakcije pri utrjevanju livne mase in prikazali teoretični izračun raztezkov vgradnih komponent pri tej temperaturi. Z grafičnim prikazom skrčkov livne mase in raztezkov vgradnih komponent pri posamezni temperaturi, smo prikazali krivulje gibanja omenjenih materialov. Ugotovili smo, da to gibanje poteka v različnih smereh (livna masa se krči, vgradne komponente se raztezajo). Z višanjem temperature je razhajanje večje. Za povečanje elastičnosti livne mase in s tem zmanjšanja možnosti nastanka razpok, smo v livno maso dodali fleksibilizator. Pri izbiri pravilne procesne temperature smo upoštevali tudi temperaturo steklastega prehoda, ki je pomembna pri procesu utrjevanja. Tako smo določili optimalne procesne pogoje za odlivanje skoznjikov in drugih izolatorjev iz epoksidne smole z vgrajenimi kovinskimi komponentami in jih uspešno prenesli v proizvodni proces.
Keywords:	skoznjiki, epoksidna smola, livna masa, vgradne komponente
Place of publishing:	Maribor
Publisher:	[V. Tobias Osojnik]
Year of publishing:	2012
PID:	20.500.12556/DKUM-36487
UDC:	543.632.542(043.2)
COBISS.SI-ID:	16697878
NUK URN:	URN:SI:UM:DK:MUBHKS2P
Publication date in DKUM:	21.06.2012
Views:	2930
Downloads:	82
Metadata:
Categories:	KTFMB - FKKT
:	TOBIAS OSOJNIK, Valerija, 2012, VPLIV TEMPERATURE NA TEHNOLOŠKI POSTOPEK ODLIVANJA SKOZNJIKOV IZ EPOKSIDNE SMOLE [online]. Bachelor’s thesis. Maribor : V. Tobias Osojnik. [Accessed 15 March 2025]. Retrieved from: https://dk.um.si/IzpisGradiva.php?lang=eng&id=36487 Copy citation

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Secondary language

Language:	English
Title:	THE INFLUENCE OF TEMPERATURE ON TECHONOLOGICAL PROCESS OF BUSHING INSULATORS MADE FROM EPOXY RESINE
Abstract:	The graduation thesis presents the experimental procedure to determine optimal process conditions for casting epoxy resin bushings. The most important parameter for gelling, curing and cooling the bushings is temperature, which affects the shrinkage of casting resin and the elongation of built-in components. The above processes have been examined at different temperatures (90, 120 and 140) °C. The temperature of exothermic reaction in the curing of casting resin has been measured, and a theoretical calculation of built-in components elongation at such temperature is provided. Graphic presentations of casting resin shrinkage and built-in components elongation at different temperatures indicate that the above materials move in different directions (casting resin shrinks, while built-in components grow longer). Such discrepancy further increases with the rise of temperature. In order to make casting resin more elastic and reduce the possible occurrence of cracks, flexibilizer was added into the casting resin system. The selection of the right process temperature took account of the glass transition temperature which is important for curing. Thus, optimal process conditions for casting bushings and other epoxy resin insulators with built-in components were determined and successfully transposed in the production process.
Keywords:	bushings, epoxy resin, casting resin system, built-in components

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