Research of Influences Different Materials Cable Product's Shells on Time of Polymerization

Evgeniya Ivanova; Alexander Ermoshkin; Ilya Lutikov; Pavel A. Strizhak

doi:10.4028/www.scientific.net/KEM.683.30

Paper Titles

Study of TiO₂ Films: Temperature Impact on the Morphology and Phase Structure
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Growth of Demand for Materials with New Properties in Foresight and Strategic Planning
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F-Doped Titanium Dioxide Modified by Copper Preparation and Characterization
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Research of Influences Different Materials Cable Product's Shells on Time of Polymerization
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Analyzing Deformation and Fracture of Dielectrics by Integral Characteristics of their Electromagnetic Emission
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Hydrogenation of Nd-Fe Alloys under Conditions of Different Pressure and Hydrogen Concentration
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The Structure and Properties of Yttrium-Stabilized Zirconium Dioxide Ceramics Treated by Electron Beam
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 683Research of Influences Different Materials Cable...

Research of Influences Different Materials Cable Product's Shells on Time of Polymerization

Abstract:

The development of the cable industry is growing rapidly. Cable manufacturing process occurs at high energy intensive and require different materials in an amount sufficient. The question of marriage of the finished product is very serious. Moreover, the dwell time of cables with different types of coating materials at high temperatures cannot be identified because of possible burn. The purpose of the work was to determine the optimal time for the polymerization of various types of cable jacket. There is a numerical study of the polymerization of cable products. Also, there are set scales of influence of different types of cable sheaths at the time of full cure.

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Periodical:

Key Engineering Materials (Volume 683)

Pages:

30-35

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.683.30

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Online since:

February 2016

Authors:

Evgeniya Ivanova*, Alexander Ermoshkin, Ilya Lutikov, Pavel A. Strizhak

Keywords:

Copper, Density, Polyethylene, Polymerization, Polypropylene, Polyvinyl Chloride, Rubber, Time of Polymerization

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References

[1] Global Low Smoke Halogen-Free Cable Materials Industry Report 2014, Dublin, (2015).

Google Scholar

[2] Lukomskaya A.I., Badenkov P. Ph., Kepersha L.M., Thermal Curing Basis of Rubber Product. Chemistry. Moscow, (1972).

Google Scholar

[3] G. Odian, Principles of Polymerization, Wiley-Interscience, USA, (2004).

Google Scholar

[4] D. Veenendaal, P. Block, Design process for prototype concrete shells using a hybrid cable-net and fabric formwork. Eng. Struct., 75 (2014) 39-50.

DOI: 10.1016/j.engstruct.2014.05.036

Google Scholar

[5] J. Vlachopoulos, D. Strutt, Basic heat transfer and some applications in polymer processing. Canada, Society of Petroleum Engineers Liquids-Rich Basins Conference 2 (2002) 21-33.

Google Scholar

[6] Wang, Q. Jane, Encyclopedia of Tribology, Mass Transfer in Polymer Friction, Springer, USA, (2013).

Google Scholar

[7] W. Grellmann, S. Seidler, Polymer Solids and Polymer Melts–Mechanical and Thermomechanical Properties of Polymers, Springer, (2014).

DOI: 10.1007/978-3-642-55166-6_5

Google Scholar

[8] P.J. Roache, Computational Fluid Dynamics, Hermosa Publishers, USA, (1982).

Google Scholar

[9] Y. Jaluria, Natural Convection: Heat and Mass Transfer, Pergamon Press, Oxford, (1980).

Google Scholar

[10] A.A. Samarskii, The Theory of Difference Schemes, Marcel Dekker, Inc., USA, (2001).

Google Scholar

[11] E.V. Ivanova, G.V. Kuznetsov, Numerical Modeling of Temperature Fields in Cylindrical Articles During Vulcanization, J. Chem. and Petroleum Eng. 47, 7-8 (2011) 447-450.

DOI: 10.1007/s10556-011-9490-2

Google Scholar

[12] E.V. Ivanova, G.V. Kuznetsov, P.A. Strizhak, Mathematical Modeling of Physico-chemical processes in the Polymerization of Multicore Cable Products, EPJ Web of Conf. 76 (2014) paper 01024.

DOI: 10.1051/epjconf/20147601024

Google Scholar