Osobennosti raspredeleniya vysokomolekulyarnykh soedineniy v ledovykh strukturakh sportivnykh ob\"ektov kak odna iz zadach prikladnoy fiziki kristallizatsii



如何引用文章

全文:

开放存取 开放存取
受限制的访问 ##reader.subscriptionAccessGranted##
受限制的访问 订阅或者付费存取

详细

This paper is continued the theme of the creation of modified ice coatings for sports application [1, 3, 4]. The results of experimental studies of the crystallization of ice with highmolecular compounds presents there at first. Analysis of the literature confirmed the absence of a complete analogy problem to be solved in such close areas like glaciology, cryobiology, desalination technology and metallurgy. A new method of visualization of the ice structures by introducing the dye particles confirmed the formation of polycrystalline ice hexagonal shape which is divided by intercrystalline space with high molecular compounds. Experimental studies stratified by mechanical separation ice packs and further chemical analysis of the melt allowed to determine the basic mechanisms of diffusion mass transfer during solidification and to receive the diagram of primary distribution of modifiers through the thickness of the ice formed massif at first. Molecular mass, structure of macromolecular chains and the surface activity of the input compounds have an effect on the characteristics of the distribution diagrams. Studies have confirmed the decisive importance of large macromolecules PTFE to ensure uniform distribution of modifiers in the depth of the array and confirmed the hypothesis of an agglomeration of possible impurities on them and their role as an additional «molecular» stage water purification. Keywords: solidification, heat and mass transfer, high molecular compounds, distribution diagram, ice coatings for sports application.

全文:

受限制的访问

作者简介

Galina Goncharova

Email: galinagoncharova@mail.ru

Tat'yana Ustyugova

Email: galinagoncharova@mail.ru

Nikolay Razomasov

Email: nrazomasov@yandex.ru

参考

  1. Архаров И.А., Гончарова Г.Ю. Экспериментальное исследование ледовых структур, модифицированных полимерами // Холодильная техника. 2010. №11.
  2. Вайнгард У. Введение в физику кристаллизации металлов.- Москва: Мир, 1967.
  3. Гончарова Г.Ю., Печурица А.Н., Осипова А.П., Петроградский А.В. Новый этап развития ледовых технологий (от гомеопатии к пластической хирургии) //Холодильная техника. 2009. № 5.
  4. Гончарова Г.Ю. Новый подход к выбору соединений для направленного воздействия на свойства ледовых поверхностей //Холодильная техника. 2009. № 9.
  5. Иванов А.А. Нелинейный тепломассоперенос при затвердевании многокомпонентных растворов и расплавов. Екатеринбург, 2010.
  6. Кулешов Л.Г., Моисеев В.А., Иткин Ю.А. Кристаллизация водных растворов некоторых криопротекторов // Криобиология и криомедицина. 1976. № 2.
  7. Назинцев Ю.Л., Панов В.В. Фазовый состав и теплофизические характеристики морского льда. - СПб.: Гидрометеоиздат, 2000.
  8. Новиков А.Н., Пичугин Ю.И., Линник Т.П. Влияние криопротекторов и ряда органических добавок на процесс рекристаллизации льда в модельных системах // Проблемы криобиологии. 1992. № 2.
  9. Песчанский И.С. Ледоведение и ледотехника. - Л.: Гидрометеорологическое издво, 1967.
  10. Michael Kapembwa, Marcos RodríguezPascual и Alison E. Lewis. Heat and Mass Transfer Effects on Ice Growth Mechanisms in Pure Water and Aqueous Solutions // Сrystal growth and Design. 2014. №14.
  11. Arkharov I.A., Goncharova G.Yu. Experimental study of ice structures modified by polymers //Kholodilnaya Tekhnika. 2010. №11.
  12. Vayngard U. Introduction to the physics of metals crystallization. -Moscow: Mir, 1967
  13. Goncharova G.Yu., Pechuritsa A.N., Osipova A.P., Petrogradsky A.V. New stage of development of ice technologies (from homeopathy to plastic surgery)//Kholodilnaya Tekhnika. 2009. № 5.
  14. Goncharova G.Yu. New approach to the choice of compounds for directed impact at ice surface properties// Kholodilnaya Tekhnika. 2009. № 9.
  15. Ivanov A.A. Nonlinear heat and mass transfer at solidification of multicomponent solutions and melts. Yekaterinburg, 2010.
  16. Kuleshov L.G., Moiseev V.A., Itkin Yu.A. Crystallization of aqueous solutions of certain cryoprotectors//Kriobiologia i kriomeditsina. 1976. № 2.
  17. Nazintsev Yu.I., Panov V.V. Phase composition and thermal and physical characteristics of sea ice.St. Petersburg: Gidrometeoizdat, 2000.
  18. Novikov A.N., Pichugin Yu. I., Linnik T.P. Impact of cryoprotectors and certain organic additives on the process of recrystallization of ice in model systems//Problemy kriobiologii. 1992. № 2.
  19. Peschansky I.S. Ice knowledge and ice technology. -L.: Gidrometeorologicheskoe izdatelstvo, 1967.
  20. Michael Kapembwa, Marcos RodríguezPascual and Alison E. Lewis. Heat and Mass Transfer Effects on Ice Growth Mechanisms in Pure Water and Aqueous Solutions // Сrystal growth and Design. 2014. №14.

补充文件

附件文件
动作
1. JATS XML
下载

版权所有 © Goncharova G.Y., Ustyugova T.G., Razomasov N.D., 2015

Creative Commons License
此作品已接受知识共享署名 4.0国际许可协议的许可