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Properties of the Composition Based on Modified Polyethylenes
American Journal of Chemical Engineering
Volume 7, Issue 3, May 2019, Pages: 90-101
Received: Jul. 15, 2019; Accepted: Aug. 13, 2019; Published: Oct. 20, 2019
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Shixaliyev Kerem Sefi, Department of "Organic Substances and Technology of Macromolecular Compounds" Chemical-Technological Faculty, Azerbaijan State University of Oil and Industry, Baku, Azerbaijan
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The subject of this paper is to study the properties of compositions based on a modified polyethylene and a thermoplastic polyolefin structural features. As a result of the modification of polyethylene, the high elasticity of the material grows, which outwardly makes this polymer similar in complex to the physico-mechanical properties of rubber. The calculations made allowed us to estimate the parameters of the observed thermal transitions and to assign them to the mobility of specific elem ents of the structure.
Polyethylene, Oil, Gasoline, Strength, Temperature, Swelling, Fuel, Rheology
To cite this article
Shixaliyev Kerem Sefi, Properties of the Composition Based on Modified Polyethylenes, American Journal of Chemical Engineering. Vol. 7, No. 3, 2019, pp. 90-101. doi: 10.11648/j.ajche.20190703.12
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License ( which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Serenko O. A, Goncharuk G. P. et al. / Effect of temperature on the deformation behavior of a composite based on polypropylene and rubber particles // High Molecular Compounds.-2007.-No 1.- С. 71-78.
Derikov I. Ya. Kutergina I. Yu. Et al. / Stable Nonequilibrium Composites Based on Liquid Crystal Polymers and Cadmium Selenide Nanoparticles // High Molecular Compounds. 2014. No. 4, p. 408-418.
Zaikin A. E, Bobrov G. B. / Compatibilization of mixtures of incompatible polymers by filling // High-molecular compounds.-2012.-No. 8.-p. 1275-1282.
Kuleznev V. N, Surikov P. V. // Phase equilibria in three-component polymer blends / High-molecular compounds.-2012.-№11.-p. 1602-1609.
Chalykh A. E, Gerasimov VK, Mikhailov Yu. M. Phase diagrams of polymer systems. M: Janus, 1998.
Mulder M. // Basic Principles of Membrane Technology. Dordrecht: Kluwer, 1996.
Belov N. A., Safronov A. P., Yu. P. Yampolsky // Reverse gas chromatography and thermodynamics of sorption in polymers. / High-molecular compounds.-2012.-№11.-p. 1631-1647.
Bundjali B., Yudistira I., JAriah B, Sukria L. // Study on properties of Polymer Blends from Polypropylene with Polycaprolactone and their Biodegradability / Polymer Journal, -2007-Vol. 39, No. 12.-pp. 1337-1344.
Ermilova E. A, Sizova A. A, Il'icheva N. N., Pleshakov D. V. // Investigation of the thermodynamic compatibility of a three-component mixture of nitramines with a copolymer of methyl methacrylate and methacrylic acid. / Advances in Chemistry and Chemical Technology.-2014- No. 2.-p. 65-67.
Rijhikova I. G., Volkov A. M., et al. Modification feature of binary mixtures PP / SKEP by the system of organic peroxide-polyfunctional vinyl monomer in the reaction extrusion process. Plastic masses, 8, 2013, p. 40-45.
Murtazina L. I., Garifullin A. R., Nikultsev I. A., et all. Influence of plastificators on the property of unhardened hermetics on the basis of ethylene-propylendiene rubber. Engineer-chemist’s encyclopedia, No. 8, 2014, pp. 31 - 35.
Kirsh I. A., Pomogova D. A. Study of the properties of secondary polymer materials based on polypropylene and polyethyleneterephtalat, obtained in the influence of ultrasonic vibrations on the polymer melts. - Moscow, Plastic masses, 2012, No. 1, pp. 48-51.
Kurbanova N. I. Heatelastolastics based on polypropylene and tri-etylene-propylene copolymer. Azerbaijan chemistry, - No. 1, - 2013, - P. 57–59.-2008-№4.-p. 69-72.
Shastin E. R, Beknazarov H. S., Akhmedov W. K., Jalilov A. T.// Interphase interactions of three-phase polypropylene composite materials. / Universum. Technical sciences ./- 2018-№12.-p. 57.
Shastin D. A., Wolfson S. I., Makarov T. V. // Influence of modification of triple ethylene-propylene rubber on the physicomechanical properties of rubbers. / Bulletin of Kazan Technological University.-2010-№4.-p. 5-7.
Ryzhikova I. G., Volkov A. M., Bauman N. A., Kazakov Yu. M., Wolfson S. I. // Influence of the concentration of the components of the modifying system peroxide / TMPTA and the Mooney viscosity of rubber SKEPT on the balance fluidity and impact resistance of master-batch SKEPT in a matrix of polypropylene. / Bulletin of the Technological University-2015-No. 4.-from 148-150.
Ryzhikova I. G., Volkov A. M., Bauman N. A., Kazakov Yu. M., Wolfson CB // Study of the physicomechanical properties of pp / skpt mixtures modified with peroxide and peroxide / tmpta system-Vestnik University of Technology. 2015. -№4. -with. 134-137.
Nurmeeva E. K. // Production and scope of ethylene-propylene rubbers SKEPT / -Vestnik of Kazan Technological University.-2012-p. 129-131.
Prospects for the development of production of ethylene-propylene rubber // Production and use of elastomers. - 1998.-№1. -WITH. 53-54.
Klyuchnikov I. O., Klyuchnikov O. R., Stoyanov O. V. // Bulletin of Kazan Technological University.-2015.-№4 - p. 224-225.
El-Sabbagh S. H. // Compability Study of Natural Rubber and Ethylene – Propylene – Diene Rubber Blends / Department of Polymers and Pigments, National Research Center, Dokki, Cairo, Egypt. 2001, p. 2-11.
Askadsky A. A. // Influence of strong intermolecular and chemical interactions on the compatibility of polymers / Advances in Chemistry.-1999.-No. 4-p. 349-364.
Amash A., Shuster R. H., Frueh T. // Effects of Compability in Rubber / Polypropilene Blends / Elastomere und Kunststoffe.-2001.-No. 6-p. 315-320.
Abou-Helal M. O., El-Sabbagh S. H. // Student on the Compability of NR-EPDM Blends Using Electrical and Mechanical Techniques / Journal of Elastomers and Plastics.-2005.-No. 4.-p. 319-346.
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