Т. Г. Січкар scite author profile

Т. Г. Січкар

5Publications

2Citation Statements Received

3Citation Statements Given

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Affiliations

National Pedagogical Dragomanov University, Gorno-Altaisk State University, Pedagogical University

Publications

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Relaxation properties of an epoxy polymer plastified with maleic anhydride

Shut¹,

Бартенев²,

Lazorenko³

et al. 1991

Acta Polymerica

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The relaxation propertics of the epoxy dian polymer ED-16 plastified with maleic anhydride were studied in the wide range of temperature from -150°C to + 500°C. The experimentally found great number of relaxation transitions are connected with the complex structure of the polymer and with tlie existence of A large nuniber of different forms of molecular motion. The observed rclaxations are classified and their characteristic constants (activation energy and preexponential factor) are given. A nonsegmental mechanism of the process of glass transition in highly crosslinked polymers is suggested. Relaxationseigenschaften eines mil Maleinsdureanhydrid plastifizierten EpoxidpolgmersDie Relaxationseigensehaften des mit hIaleinsiiureanliyclrid plas tifizierten Epoxydianpolymers E D-16 wurden i n dem Tcmperaturbercicli von -150OC bis + 5OOOC untersuclit. Die experimentell gefundene groDe Zahl von Relasationsubcrgiingen hiingt mit der komplexen Struktur des Polymers urid der Existenz einer groUen Zalil von unterschiedlichen molekularen Bewegungen zusammen. Die beobachtcten Relaxationsiibergiinge werden klassifiziert, und ihre eharakteristisehen Parameter (hktivicrungsenergie und priiexponen ticller Faktor) werden angegeben. Fur den Glasiibergang in liochvernc tzten Polymercn wird eiu nichtsegmcntalcr hIeehanismus angenornmen.

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Relaxation spectrometry of highly cross‐linked polymer with epoxy lacquer resin base

1987

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Methods of relaxation spectrometry were used to study mechanical, dielectric and structural relaxations in a highly cross-linked polymer. By application of several mechanical, dielectric and structural (calorimetric) methods, were obtained seven small-scale y-relaxation transition, three small-scale B-transitions and an a-glass transition, divided into two peaks. The most essential characteristics of relaxation processes were calculated. A conclusion about a certain difference between the processes of glass transition in highly cross-linked and in linear polymers is suggested. Relaxationsspektrometrie eines hochvernetzten Polymers auf Epoxynovolakharz-BasisMit der Relaxationsspektrometrie wurden die mechanischen, dielektrischen und strukturellen Relaxationen eines hochvernetzten Polymers untersucht. Durch Anwendung verschiedener mechanischer, dielektrischer und struktureller (calorimetrischer) Methoden wurden sieben y-und drei j3-Relaxationsubergange gefunden, die in kleinen Bereichen erfolgen, sowie ein a-Glasiibergang, der in zwei Maxima unterteilt ist. Die wesentlichen Parameter der Relaxationsprozesse wurden berechnet. Es wurden SchluBfolgerungen iiber den Unterschied des Glasiibergangsprozesses in hochvernetzten und linearen Polymeren abgeleitct. PeJzaiccayuonHtluc cneicmpomempua zycmoculumozo nommepa na ocnoee ~noiccu-~oeo~aunofi cmomiMeTOAaMH peJIaKCaI(HOHHO8 CneKTpOMeTpHH H3YqeHbI MeXaHHYeCKaR, AII3JleKTpHYeCKaR H CTPYKTYPHBR PeJIaKc-CaqHH B ryCTOCtUIITOM IIOJIHMepe. no HaHHbIM HeCKOJIbKHX He3aBHCIIMbIX MeXaHHYeCKHX, a TaKme J(II3JIeKTpH-YeCKOrO II CTPYKTYPHOrO (KaJIOpIIMeTpHYeCKOrO) MeTOAOB 06HapyHteHO CeMb MeJIKOMaCMTa6HbIX y-peJIaKCaqIIOH-PaCCWlTaHbI OCHOBHbIe XaPaKTePHCTHKH peJlaKCaqHOHHbIX IIpOqeCCOB. neJIaeTCf3 BbIBOA 0 HeKOTOPOM OTJIHYHH MeXaHH3MOB CTeKJIOBaHHR B ryCTOCtUHTbIX H JIHHe8HbIX IlO3lHMepaX. H~I X nepexoga, TPK M~J I K O M~C I U T~~H~I X j3-nepexoga H a-npoqecc C T e K n o B a H m , pacIqenneHHbI8 H a EBa nepexoaa.

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Analysis of heat- and electroconductivity of epoxy-based composite materials

Шут¹,

Gorshunov²,

Січкар³

et al. 2006

J. Phys. Stud.

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Relaxation transitions in epoxide polymers

Бартенев

Shut

Dushchenko

et al. 1986

Polymer Science U.S.S.R.

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Physical and mechanical, and relaxation properties of the system PCTFE – nanodispersed graphite

Січкар¹,

Рокицький²,

Янчевський³

et al. 2020

ФАС

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Ультразвуковим методом досліджувався вплив нанорозмірного карбонового наповнювача на фізико-механічні та релаксаційні властивості полімерного композиту на основі поліхлортрифторетилену. Нанорозмірний наповнювач отримували шляхом ультразвукової диспергації терморозширеного графіту. Розроблено і описано методику попереднього визначення порогу перколяції. Досліджена інверсія механічних властивостей композитів при переході через поріг перколяції. Показано, що при виготовленні композитів недоцільно використовувати концентрації, що значно перевищують поріг перколяції, оскільки це приводить до коагуляції частинок наповнювача та розрихлення матриці.

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