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Razvoj polimernih embalažnih materialov iz obnovljivih surovinskih virov
ID Lavrič, Gregor (Author), ID Vrabič Brodnjak, Urška (Mentor) More about this mentor... This link opens in a new window

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Abstract
Doktorsko delo temelji na treh znanstvenih člankih s področja razvoja trajnostnih polimernih embalažnih materialov. V sklopu raziskav za pripravo omenjenih člankov so bili z uporabo večinoma lokalno dostopnih surovinskih virov razviti novi, različni, trajnostni, polimerni embalažni materiali, ki bodo v prihodnje lahko služili kot alternativa običajnim, osnovanim iz naftnih derivatov. Prav tako so bili pripravljeni premazi iz obnovljivih virov, ki služijo predvsem za izboljšanje bariernih lastnosti papirjev ter bodo v prihodnje lahko predstavljali nadomestek nekaterim sintetičnim premazom. V prvi fazi raziskav je bil s postopkom elektropredenja iz mulja, ki nastaja pri čiščenju odpadnih komunalnih vod, pridobljen nov, gibek, tanek material, potencialno uporaben za embalažne namene. Mulj je bil pred postopkom elektropredenja očiščen z uporabo etilendiamintetraocetne kisline. Sestavo in čistost mulja smo določali z uporabo infrardeče spektroskopije s Fourierjevo transformacijo, bližnje infrardeče spektroskopije in termogravimetričnih analiz. Za najnatančnejše analize, smo se posluževali jedrske magnetne resonance. Z nateznim testom smo analizirali mehanske lastnosti novo razvitega materiala, z uporabo elektronskega vrstičnega mikroskopa pa njegovo homogenost in morfološke značilnosti. V drugi fazi raziskave so bili s postopkom vlivanja izdelani tanki, gibki filmi, katerih glavne komponente so bile: bakterijska nanoceluloza (pridobljena iz alternativnega surovinskega vira – kisove matice), nanokristalinična in nanofibrilirana celuloza, alginat ter hitozan. Vse komponente filmov so bile pred vlivanjem okarakterizirane z uporabo različnih analitičnih tehnik. Novo razvite filme smo okarakterizirali predvsem z vidika fizikalno–mehanskih lastnosti (natezne lastnosti) in bariernih lastnosti (prepustnost za vodno paro in kisik), pri čemer smo določili vpliv sestave na omenjene lastnosti. V zadnjem delu raziskav smo preučevali vpliv različnih premazov na barierne lastnosti komercialno dobavljivega, industrijsko izdelanega papirja. Sprva smo pripravili premazne mešanice, osnovane na škrobu, z dodanimi različnimi deleži ligninov iz različnih surovinskih virov. Premazne mešanice smo nato nanesli na površino izbranega papirja. Z meritvami prepustnosti vodne pare, odpornosti na maščobe, olja itd. premazanih papirjev smo določili vpliv bio-osnovanih premazov na barierne lastnosti, prav tako smo določili tudi mehanske in fizikalne lastnosti papirja.

Language:Slovenian
Keywords:trajnostni embalažni materiali, papirni premazi, tanki gibki embalažni filmi, lignin, nanoceluloza
Work type:Doctoral dissertation
Organization:NTF - Faculty of Natural Sciences and Engineering
Year:2023
PID:20.500.12556/RUL-147526 This link opens in a new window
Publication date in RUL:07.07.2023
Views:640
Downloads:116
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Secondary language

Language:English
Title:Development of polymer packaging materials from renewable resources
Abstract:
The PhD thesis is based on three scientific papers from the field of development of sustainable polymer packaging materials. The research for these papers has resulted in new, different, sustainable, polymeric packaging materials, using mostly locally available raw material sources, which could serve as an alternative to conventional petroleum-based materials in the future. Coatings from renewable sources have also been developed, which serve mainly to improve the barrier properties of papers and may in the future provide a substitute for some synthetic coatings. In the first phase of the research, a new, flexible, thin material, potentially useful for packaging purposes, was obtained by electrospinning from sludge produced during the treatment of municipal wastewater. The sludge was cleaned using ethylenediaminetetraacetic acid prior to the electrospinning process. The composition and purity of the sludge were determined using Fourier transform infrared spectroscopy, near-infrared spectroscopy, and thermogravimetric analyses. For the most accurate analyses, nuclear magnetic resonance was used. The mechanical properties of the newly developed material were analysed by tensile tests and its homogeneity and morphological characteristics were analysed by electron line microscopy. In the second phase of the research, thin, flexible films were produced by a casting process, the main components of which were: bacterial nanocellulose (obtained from an alternative raw material source - vinegar nut), nanocrystalline and nanofibrillated cellulose, alginate, and chitosan. All film components were characterised prior to casting using different analytical techniques. The newly developed films were characterised mainly in terms of mechanical-physical properties (tensile properties) and barrier properties (water vapour and oxygen permeability), and the influence of composition on these properties will be determined. In the last part of the research, the influence of different coatings on the barrier properties of commercially available, industrially produced paper was investigated. Initially, starch-based coating blends were prepared with different proportions of lignins from different raw material sources added. The coating blends were then applied to the selected paper. By measuring the water vapour permeability, fat, and oil resistance, etc. of the coated papers, the influence of the bio-based coatings on the barrier properties was determined, as well as the mechanical and physical properties of the paper.

Keywords:sustainable packaging materials, paper coatings, thin flexible packaging films, lignin, nanocellulose

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