Polyolefin compositions. Study of properties of the flame retardants cross linking compounds

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dc.citation.epage60
dc.citation.issue1
dc.citation.spage55
dc.citation.volume11
dc.contributor.affiliationPJSC YUZHCABLE WORKS
dc.contributor.authorChulieieva, Olena
dc.contributor.authorZolotaryov, Volodymyr
dc.date.accessioned2018-06-20T12:59:16Z
dc.date.available2018-06-20T12:59:16Z
dc.date.created2017-01-20
dc.date.issued2017-01-20
dc.description.abstractОтримано композиції поліолефінів, які здат- ні до зшивання та самозагасання. Показано, що змінюючи спів- відношення між компонентами системи зшивання, антипірени та параметри проведення процесу, можна отримати композиції поліолефінів, що забезпечують одночасно високі показники пожежної безпеки і високі ступені зшивання.
dc.description.abstractFlame-retardants cross-linking polyolefin compounds were obtained. It is shown that it is possible to obtain polyolefin compounds with high fire and crosslinking rates at the same time by changing the ratio between the cross-linking components, flame-retardants and processing parameters.
dc.format.extent55-60
dc.format.pages6
dc.identifier.citationChulieieva O. Polyolefin compositions. Study of properties of the flame retardants cross linking compounds / Olena Chulieieva, Volodymyr Zolotaryov // Chemistry & Chemical Technology. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 11. — No 1. — P. 55–60.
dc.identifier.citationenChulieieva O. Polyolefin compositions. Study of properties of the flame retardants cross linking compounds / Olena Chulieieva, Volodymyr Zolotaryov // Chemistry & Chemical Technology. — Lviv : Lviv Politechnic Publishing House, 2017. — Vol 11. — No 1. — P. 55–60.
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/42076
dc.language.isoen
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofChemistry & Chemical Technology, 1 (11), 2017
dc.relation.references[1] Chulieieva E. and Vasilets L.: Vestnik Nats. Techn. Univ. KhPI,2000, 127, 10.
dc.relation.references[2] Chulieieva E., Zolotaryov V. and Pakharenco V.: Plast. Massy,2009, 10, 41.
dc.relation.references[3] Peshkov I.: Materialy Kabelnoho Proizvodstva. Mashinostroenie, Moskva 2013.
dc.relation.references[4] http:// eom.com.ua/index.php?action=downloads;sa=view;down=1499
dc.relation.references[5] EN 60811-507:2012 Electric and optical fibre cables – Test methods for non-metallic materials – Part 507: Mechanical tests – Hot set test for cross-linked materials.
dc.relation.references[6] ISO 4589-2-1996 Plastics-determination of burning behavior by oxygen index – Part 2: Ambient-temperature test.
dc.relation.references[7] EN 60332-1-1:2004 Tests on electric and optical fibre cables under fire conditions – Part 1-1: Test for vertical flame propagation for a single insulated wire or cable – Apparatus.
dc.relation.references[8] www.kdpu-nt.gov.ua/
dc.relation.references[9] Selikhov N.: Antipireny: Sovremennye Tekhnologicheskie Aspekty Proizvodstv i Primeneniya, Analiz Rynochnoy Koniunktury. Cherkassy 2007.
dc.relation.references[10] Kodolov V. Horuchesty i Ohnestoikosty Polymernykh Materialov. Khimiya, Moskva 1976.
dc.relation.references[11] ISO 10147:2011 – Pipes and fitting made of crosslinked polyethylene (PE-X) – Estimation of determination of the gel content.
dc.relation.referencesen[1] Chulieieva E. and Vasilets L., Vestnik Nats. Techn. Univ. KhPI,2000, 127, 10.
dc.relation.referencesen[2] Chulieieva E., Zolotaryov V. and Pakharenco V., Plast. Massy,2009, 10, 41.
dc.relation.referencesen[3] Peshkov I., Materialy Kabelnoho Proizvodstva. Mashinostroenie, Moskva 2013.
dc.relation.referencesen[4] http:// eom.com.ua/index.php?action=downloads;sa=view;down=1499
dc.relation.referencesen[5] EN 60811-507:2012 Electric and optical fibre cables – Test methods for non-metallic materials – Part 507: Mechanical tests – Hot set test for cross-linked materials.
dc.relation.referencesen[6] ISO 4589-2-1996 Plastics-determination of burning behavior by oxygen index – Part 2: Ambient-temperature test.
dc.relation.referencesen[7] EN 60332-1-1:2004 Tests on electric and optical fibre cables under fire conditions – Part 1-1: Test for vertical flame propagation for a single insulated wire or cable – Apparatus.
dc.relation.referencesen[8] www.kdpu-nt.gov.ua/
dc.relation.referencesen[9] Selikhov N., Antipireny: Sovremennye Tekhnologicheskie Aspekty Proizvodstv i Primeneniya, Analiz Rynochnoy Koniunktury. Cherkassy 2007.
dc.relation.referencesen[10] Kodolov V. Horuchesty i Ohnestoikosty Polymernykh Materialov. Khimiya, Moskva 1976.
dc.relation.referencesen[11] ISO 10147:2011 – Pipes and fitting made of crosslinked polyethylene (PE-X) – Estimation of determination of the gel content.
dc.rights.holder© Національний університет „Львівська політехніка“, 2017
dc.rights.holder© Chulieieva O., Zolotaryov V., 2017
dc.subjectсилові ізольовані проводи
dc.subjectгорючість
dc.subjectкисневий індекс
dc.subjectантипірени
dc.subjectгалогенід сурми
dc.subjectкомпозиції поліолефінів
dc.subjectздатні до зшивання та самозагасання
dc.subjectself-supporting wires
dc.subjectcombustibility
dc.subjectlimiting oxygen index
dc.subjectflame-retardant agents
dc.subjectantimony halides
dc.subjectflame-retardant and cross-linking polyolefin compounds
dc.titlePolyolefin compositions. Study of properties of the flame retardants cross linking compounds
dc.title.alternativeКомпозиції поліолефінів. Вивчення властивостей композицій, здатних до зшивання та самозагасання
dc.typeArticle

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Chemistry & Chemical Technology. – 2017. – Vol. 11, No. 1