Ispitivanje žilavosti polipropilena punjenog staklenim prahom
Testing the toughness of polypropylene filled with glass powder
Апстракт
Svrha rada je da se polimerni otpad prikaže kao sirovina ili na drugi način iskoristljiv materijal dobijen djelimičnim razdvajanjem komunalnog otpada. U radu je obrađena mogućnost ponovne upotrebe polipropilena recikliranjem uz dodatak staklenog praha, sa stanovišta žilavosti usljed udarnog opterećenja. Ispitivane su standardne epruvete, napravljene od osnovnog materijala - polipropilena i uz dodatak 0%, 5%, 10%, 15%, 20%, 25% i 30% staklenog praha granulacije manje od 0,5 mm, kroz šest ciklusa prerade. Izmjerene vrijednosti dale su mogućnost formiranja obrazaca promjene žilavosti posmatranog materijala sa različitim sadržajem stranog tijela, kroz cikluse prerade, što može pomoći u daljim istraživanjima i analizama.
The purpose of this paper is to show polymer waste as a raw material or otherwise usable material derived from a partial separation of communal waste. This paper describes the possibilities of polypropylene re-use through recycling with addition of glass powder, from the point of view of toughness caused by impact load. Standard test specimens, made of basic material - polypropylene, with addition of 0%, 5%, 10%, 15%, 20%, 25% and 30% of glass powder with granulation less than 0,5 mm, have been tested through six processing cycles. The measured values gave a possibility of forming patterns for changes of the observed material with different content of additives, through processing cycles, which can be helpful in further research and analysis.
Кључне речи:
žilavost / Reciklaža / polipropilen / toughness / recycling / polypropyleneИзвор:
Contemporary materials, 2012, 3, 1, 116-122Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Janjuš, Z. AU - Petrović, A. AU - Jovović, Aleksandar AU - Prokić-Cvetković, Radica AU - Ilić, P. PY - 2012 UR - https://machinery.mas.bg.ac.rs/handle/123456789/1415 AB - Svrha rada je da se polimerni otpad prikaže kao sirovina ili na drugi način iskoristljiv materijal dobijen djelimičnim razdvajanjem komunalnog otpada. U radu je obrađena mogućnost ponovne upotrebe polipropilena recikliranjem uz dodatak staklenog praha, sa stanovišta žilavosti usljed udarnog opterećenja. Ispitivane su standardne epruvete, napravljene od osnovnog materijala - polipropilena i uz dodatak 0%, 5%, 10%, 15%, 20%, 25% i 30% staklenog praha granulacije manje od 0,5 mm, kroz šest ciklusa prerade. Izmjerene vrijednosti dale su mogućnost formiranja obrazaca promjene žilavosti posmatranog materijala sa različitim sadržajem stranog tijela, kroz cikluse prerade, što može pomoći u daljim istraživanjima i analizama. AB - The purpose of this paper is to show polymer waste as a raw material or otherwise usable material derived from a partial separation of communal waste. This paper describes the possibilities of polypropylene re-use through recycling with addition of glass powder, from the point of view of toughness caused by impact load. Standard test specimens, made of basic material - polypropylene, with addition of 0%, 5%, 10%, 15%, 20%, 25% and 30% of glass powder with granulation less than 0,5 mm, have been tested through six processing cycles. The measured values gave a possibility of forming patterns for changes of the observed material with different content of additives, through processing cycles, which can be helpful in further research and analysis. T2 - Contemporary materials T1 - Ispitivanje žilavosti polipropilena punjenog staklenim prahom T1 - Testing the toughness of polypropylene filled with glass powder EP - 122 IS - 1 SP - 116 VL - 3 DO - 10.7251/COM1201116J ER -
@article{ author = "Janjuš, Z. and Petrović, A. and Jovović, Aleksandar and Prokić-Cvetković, Radica and Ilić, P.", year = "2012", abstract = "Svrha rada je da se polimerni otpad prikaže kao sirovina ili na drugi način iskoristljiv materijal dobijen djelimičnim razdvajanjem komunalnog otpada. U radu je obrađena mogućnost ponovne upotrebe polipropilena recikliranjem uz dodatak staklenog praha, sa stanovišta žilavosti usljed udarnog opterećenja. Ispitivane su standardne epruvete, napravljene od osnovnog materijala - polipropilena i uz dodatak 0%, 5%, 10%, 15%, 20%, 25% i 30% staklenog praha granulacije manje od 0,5 mm, kroz šest ciklusa prerade. Izmjerene vrijednosti dale su mogućnost formiranja obrazaca promjene žilavosti posmatranog materijala sa različitim sadržajem stranog tijela, kroz cikluse prerade, što može pomoći u daljim istraživanjima i analizama., The purpose of this paper is to show polymer waste as a raw material or otherwise usable material derived from a partial separation of communal waste. This paper describes the possibilities of polypropylene re-use through recycling with addition of glass powder, from the point of view of toughness caused by impact load. Standard test specimens, made of basic material - polypropylene, with addition of 0%, 5%, 10%, 15%, 20%, 25% and 30% of glass powder with granulation less than 0,5 mm, have been tested through six processing cycles. The measured values gave a possibility of forming patterns for changes of the observed material with different content of additives, through processing cycles, which can be helpful in further research and analysis.", journal = "Contemporary materials", title = "Ispitivanje žilavosti polipropilena punjenog staklenim prahom, Testing the toughness of polypropylene filled with glass powder", pages = "122-116", number = "1", volume = "3", doi = "10.7251/COM1201116J" }
Janjuš, Z., Petrović, A., Jovović, A., Prokić-Cvetković, R.,& Ilić, P.. (2012). Ispitivanje žilavosti polipropilena punjenog staklenim prahom. in Contemporary materials, 3(1), 116-122. https://doi.org/10.7251/COM1201116J
Janjuš Z, Petrović A, Jovović A, Prokić-Cvetković R, Ilić P. Ispitivanje žilavosti polipropilena punjenog staklenim prahom. in Contemporary materials. 2012;3(1):116-122. doi:10.7251/COM1201116J .
Janjuš, Z., Petrović, A., Jovović, Aleksandar, Prokić-Cvetković, Radica, Ilić, P., "Ispitivanje žilavosti polipropilena punjenog staklenim prahom" in Contemporary materials, 3, no. 1 (2012):116-122, https://doi.org/10.7251/COM1201116J . .