Formation of structural and mechanical properties of nanomodified polymeric materials in conditions of solid-phase plunger extrusions

D.O. Zavrazhin, G.S. Baronin, V.V. Khudyakov show affiliations and emails
Received: 02 December 2013; Revised: 19 March 2014; Accepted: 30 April 2014
This paper is written in Russian
Citation: D.O. Zavrazhin, G.S. Baronin, V.V. Khudyakov. Formation of structural and mechanical properties of nanomodified polymeric materials in conditions of solid-phase plunger extrusions. Lett. Mater., 2014, 4(3) 182-185
BibTex   https://doi.org/10.22226/2410-3535-2014-3-182-185

Abstract

This project studies the influence of unsteady microwave heating on solid-phase plunger extrusions processes of nanomodified polymeric materials based on nylon-6. Structural-mechanical and thermophysical methods were used to study the strength characteristics of the materials under shear stress and Shore D hardness, as well as changes of the specific energy absorption rate in the samples melting zone. This research shows that the combination of solid-phase plunger extrusions and unsteady microwave heating of nanomodified materials based on nylon-6 provides a product with improved performance characteristics.

References

1. G. Baronin. Polymer processing in a solid phase.Physico-chemical bases: Monograph, G. Baronin etc. M.:Mashinostroenie-1. (2002) 320 p. (in Russian) [Баронин, Г.С. Переработка полимеров в твердой фазе. Физико-химические основы: Монография. Г.С. Баронин и др.М.: Машиностроение-1. (2002) 320 с.].
2. D. Zavrazhin. Kinetics and intensification of solid-phaseprocessing technology of modified polymer - carbonmaterials based on microwave - heating: diss. for thedegree of candidate of technical sciences. FGBOU VPO«TGTU». Tambov. (2011) (in Russian) [Д.О. Завражин.Кинетика и интенсификация процессов твердофаз-ной технологии обработки модифицированных по-лимер - углеродных материалов на основе СВЧ - на-грева: дисс. на соискание ученой степени кандидататехнических наук. ФГБОУ ВПО «ТГТУ». Тамбов.(2011).].
3. S. Kalganova. Electrotechnology nonthermalmodification of polymer materials in the microwaveelectromagnetic field: diss. for the degree of Doctor ofTechnical Sciences. GOU VPO SGTU. Saratov. (2009) (inRussian) [С.Г. Калганова. Электротехнология нетеп-ловой модификации полимерных материалов в СВЧэлектромагнитном поле: дисс. на соискание ученойстепени доктора технических наук. ГОУ ВПО СГТУ.Саратов. (2009).].
4. Yu. Archangelsky. Bulletin of the Saratov State TechnicalUniversity. 4 (3c), 5 (2011). (in Russian) [Ю.С.Архангельский. Вестник Саратовского государствен-ного технического университета. 4 (3c), 5 (2011).].
5. G. Baronin. Scientific statements Belgorod StateUniversity, Series: Mathematics. Physics, 23 (11), 123(2011). (in Russian) [Г.С. Баронин. Научные ведомо-сти Белгородского государственного университета.Серия: Математика. Физика. 23 (11), 123 (2011).].
6. Pat. 2361733 RF, B 29 C 39/00 Method of formingthermoplastic. G. Baronin, D. Zavrazhin, V. Dmitriev, A. Tkachev, S. Ivanov etc. GOU VPO TGTU. - №2007128686/12, appl. 25.07.2007, publ. 20.07.2009, Bull.Number 20. (in Russian) [Пат. 2361733 РФ, B 29 C 39/00Способ формования термопластов. Г. С. Баронин, Д.О. Завражин, В.М. Дмитриев, А.Г. Ткачев, С.А. Иванов и др. ГОУ ВПО ТГТУ. №2007128686/12, заявл. 25.07.2007; опубл. 20.07.2009, Бюл. №20.].
7. D. Zavrazhin, A. Popov Advanced Materials. 11, 389(2011). (in Russian) [Д.О. Завражин. Перспективныематериалы. 11, 389 (2011).].
8. G. Baronin, D. Zavrazhin, D. Kobzev. Machines, Technologies, Mateerials. The intensification of Solidphaseforming process of polymers and composites withelectrophysical effects of microwave and ultrasonic fields.Year VII, 11, 41 (2013).