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Lyamkin D.I.,Mendeleev University of Chemical Technology | Skroznikov S.V.,Mendeleev University of Chemical Technology | Zhemerikin A.N.,OOO Polimerformatsiya Polimerformatsiya LLC | Kobets A.V.,OOO Polimerformatsiya Polimerformatsiya LLC | And 2 more authors.
International Polymer Science and Technology | Year: 2013

An investigation was made of the influence of the conditions of radiation crosslinking on the network density and mechanical properties of crosslinked polyethylene (XPE) at high temperatures. The optimum electron radiator generator current and speed of cable drawing that ensure the maximum network density were found. It was shown that the gel fraction does not fully characterise the degree of crosslinking and the mechanical properties of XPE. © 2013 Smithers Rapra Technology. Source


Lyamkin D.I.,Mendeleev University of Chemical Technology | Skroznikov S.V.,Mendeleev University of Chemical Technology | Zhemerikin A.N.,OOO Polimerformatsiya Polimerformatsiya LLC | Kobets A.V.,OOO Polimerformatsiya Polimerformatsiya LLC | And 2 more authors.
International Polymer Science and Technology | Year: 2013

The thermomechanical method was used to assess the density of the three-dimensional chemical network and the reliable working time of cable insulation, produced by different manufacturers, based on PE crosslinked by radiation, peroxide and silanol methods. It was shown that the reliable working time of the three-dimensional chemical network was higher in the case of the peroxide crosslinking method than in the case of the silanol and radiation methods as a result of the different temperature conditions of curing. © 2013 Smithers Rapra Technology. Source

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