6 research outputs found

    Ricinusovo ulje kao obnovljiva sirovina za dobijanje poliuretanskih materijala

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    Traditionally, polyurethanes (PU) are manufactured by reacting isocyanates with petroleum-based polyols (polyether or polyester). Because oil resources are diminishing and are becoming expensive to produce, engineers and scientist have discovered new technologies to fabricate plastics from renewable resources. The goal of this work was to determine mechanical properties of polyurethanes synthesized from castor oil and different isocyantes: isophorone diisocyanate IPDI, 1,6-diisocyanatohexane (HDI) and aliphatic polycyclotrimer (HDIt). The samples were prepared by a one-step reactive process with stoichiometric balance of reactive groups. The catalysed synthesis was performed at normal pressure. It was estimated that a mechanical properties of prepared samples were strongly influenced by the isocyanate type.Tradicionalno se poliuretani (PU) dobijaju reagovanjem izocijanata sa poliolima (polietarski i poliestarski) koji se uobičajeno dobijaju iz nafte. Pošto se ti resursi smanjuju i postaju sve skuplji inženjeri i naučnici su razvili nove tehnologije za proizvodnju plastike iz obnovljivih sirovina. Cilj ovog rada je bio da se odrede mehanička svojstva poluretanskih materijala dobijenih jednostepenim reaktivnim procesom od ricinusovog ulja i različitih izocijanata: izoforon diizocijanata (IPDI), 1,6-diisocianatoheksana (HDI) i alifatičnog poliizocijanata ciklotrimera (HDIt) sa stehiometrijskim balansom reaktivnih grupa. Katalitička sinteza se odvijala na normalnom pritisku. Ustanovljeno je da su mehanička svojstva dobijenih materijala bila uslovljena tipom izocijanata

    Strukturiranje i primena materijala na osnovu biopolimera hitozana

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    Derived from chitin, chitosan is a unique biopolymer that exhibits, beside biocompatibility and biodegradability, outstanding adsorption properties. The layer-by-layer (LBL) deposition technique is based on the alternated adsorption of materials bearing complementary charged or functional groups, in aqueous medium. As a consequence of the polycationic nature of chitosan, chitosan-based films can be used as sensors, drug delivery systems and in tissue engineering. The goal of work was to obtain innovative nano-composites beads based on hitosan, alginate and iron-oxide prepared using LBL deposition method, as magnetic adsorbents used for the separation of dyes from solutions and suspensions.Hitozan je jedinstveni biopolimer koji, pored biokompatibilnosti i biodegradabilnosti, pokazuje i odlična adsorpciona svojstva. Sloj po sloj tehnika (layer-by-layer, (LBL)) se zasniva na naizmeničnoj adsorpciji materijala sa komplementarno naelektrisanim ili funkcionalnim grupama, u vodenoj sredini. Polikatjonska priroda hitozana omogućava njihovu primenu u LBL procesima, i zbog toga se filmovi na osnovu hitozana koriste kao senzori, nosači lekova i u inženjerstvu tkiva. Cilj rada je strukturiranje inovativnih nanokompozitnih granula na osnovu hitozana, alginata i Fe2O3 primenom LBL tehnike radi njihove primene kao magnetnih adsorbenata za uklanjanje boja iz rastvora i iz suspenzija
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