Materials Science and Technology of Materials

DOI.org/10.5281/zenodo.399009

Korneichuk G., Butsenko U.

GORDEY KORNEICHUK, Candidate of Chemical Sciences, Associate Professor, Department of Materials Science and Technology of Materials, School of Engineering, e-mail: 1gkk@rambler.ru
Far Eastern Federal University
8 Sukhanova St., Vladivostok, Russia, 690950
YURI BUTSENKO, General Director, NPO Emulbit, e-mail: emulbit@mail.ru
Vladivostok, Russia

Universal nanopolymeric binder for road asphalt concrete

Abstract: The article presents the formulation process of the universal high-quality nanoplymeric binder for road asphalt concretes whose physico-mechanical properties meet the requirements of service conditions in all the regions of Russia and, perhaps, the entire world. The formulation was based on the efficient use of waste tires and special ultrasonic techniques. Using the new binder, two development batches of asphalt concrete were produced and tested when repairing holes on a road with heavy freight traffic. The condition of those experiment sections of the road is being monitored. Widespread use of the new binder for road asphalt concretes will ensure the increase in the effective management of the rubber of waste tires more than fivefold. The formulated binder may be recommended as well to produce high-quality roof materials and insulation coverings.
Key words: bitumen, waste tire, rubber, ultrasound, nanoparticles, asphalt concrete, adhesion.

REFERENCES
1.      GOST 22245-90. The bitumen road. Specifications.  2.      GOST R 52056-2003. Binders polymer-bitumen on the basis of block copolymers of the type styrene-butadiene-styrene. Specifications.
3.      GOST 9128-2013. Asphalt concrete mixture, polymerisation, asphalt, polymerisation for roads and airfields. Specifications.
4.      Korneichuk G.K., Butsenko Y.A. New high-quality binder for asphalt pavements with the effective use of rubber tire waste. FEFU: School of Engineering Bulletin. 2015;4:23-28.
URL: https://www.dvfu.ru/vestnikis/archive-editions/4-25/3/5 – 14.12.2017.
5.      Korneichuk G.K., Butsenko Y.A. New asphalt with a nanopolymeric astringent obtained from the use of rubber tire waste and ultrasonic technology. 8^th scientific and practical. Conf. “Issues of modern science: problems, trends and prospects”, Moscow, 2013, January,13. Chronos Journal. 2017, January. S. 76-80.       URL: http://chronos-journal.ru/archive/new/Chronos_multi_january_2017.pdf  – 11.10.2016.
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7.      Pat. 2489464 Russian Federation: Method of making rubber-bitumen composition. Korneichuk G.K., application 2012127266 of 29.06.2012, registered 10.07.2013.
8.      Pat. 2550888 Russian Federation: Method of making rubber-bitumen composition. Korneichuk G.K., application 2012154148 from 13.12.2013, registered 5.04.2015.