Radiation Grafting of Styrene to PVDF Film as a Method to Obtain Polymer Electrolyte Fuel Cell Membrane; The 9th International Forum on Strategic Techology (IFOST-2014), September 21-23, 2014, Cox's Bazar, Bangladesh

Radiation Grafting of Styrene to PVDF Film as a Method to Obtain Polymer Electrolyte Fuel Cell Membrane

Bibliographic Details
Parent link:The 9th International Forum on Strategic Techology (IFOST-2014), September 21-23, 2014, Cox's Bazar, Bangladesh.— 2014.— [3 p.]
Corporate Author: Национальный исследовательский Томский политехнический университет
Other Authors: Sokhoreva V. V. Valentina Viktorovna, Golovkov V. M. Vladimir Mikhailovich, Dubrova N. A. Nataliya Aleksandrovna, Халяпина (Марачковская) Ю. В. Юлия Вячеславовна
Summary:Title screen
The paper describes the study of the grafting degree ofstyrene monomer to PVDF polymer film matrix under heliumions radiation at energy of 27 MeV. Two methods for styrenegrafting have been applied: first, at the direct exposure of heliumions to the polymer placed into styrene monomer solution, andsecond, at ‘post-effect’ when the polymer is irradiated in mediumof vacuum, air and argon. The work introduces experimentaldependences of the grafting degree on an absorbed doze andradiation medium. The results of spectroscopical and microscopicstudies are also presented. It has been proved that the directmethod of styrene grafting to PVDF films provides better resultsof the grafting degree than ‘post-effect’ method.
Language:English
Published: 2014
Series:Power System and Renewable Energy
Subjects:
электронный ресурс
труды учёных ТПУ
Online Access:http://180.211.172.109/ifost2014Pro/pdf/S2-P150.pdf
Format: Electronic Book Chapter
KOHA link:https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=641482
Description
Summary:Title screen
The paper describes the study of the grafting degree ofstyrene monomer to PVDF polymer film matrix under heliumions radiation at energy of 27 MeV. Two methods for styrenegrafting have been applied: first, at the direct exposure of heliumions to the polymer placed into styrene monomer solution, andsecond, at ‘post-effect’ when the polymer is irradiated in mediumof vacuum, air and argon. The work introduces experimentaldependences of the grafting degree on an absorbed doze andradiation medium. The results of spectroscopical and microscopicstudies are also presented. It has been proved that the directmethod of styrene grafting to PVDF films provides better resultsof the grafting degree than ‘post-effect’ method.

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