Flame-retardants cross-linking polyolefin compounds were obtained. It is shown that it is possible to obtain polyolefin compounds with high fire and cross-linking rates at the same time by changing the ratio between the cross-linking components, flame-retardants and processing parameters.
[1] Chulieieva E. and Vasilets L.: Vestnik Nats. Techn. Univ. KhPI, 2000, 127, 10.
[2] Chulieieva E., Zolotaryov V. and Pakharenco V.: Plast. Massy, 2009, 10, 41.
[3] Peshkov I.: Materialy Kabelnoho Proizvodstva. Mashinostroenie, Moskva 2013.
[4] http:// eom.com.ua/index.php?action=downloads;sa=view;down=1499
[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.
[6] ISO 4589-2-1996 Plastics-determination of burning behavior by oxygen index – Part 2: Ambient-temperature test.
[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.
[8] www.kdpu-nt.gov.ua/
[9] Selikhov N.: Antipireny: Sovremennye Tekhnologicheskie Aspekty Proizvodstv i Primeneniya, Analiz Rynochnoy Koniunktury. Cherkassy 2007.
[10] Kodolov V. Horuchesty i Ohnestoikosty Polymernykh Materialov. Khimiya, Moskva 1976.
[11] ISO 10147:2011 – Pipes and fitting made of crosslinked polyethylene (PE-X) – Estimation of determination of the gel content.