GLASS FIBER AND CARBON FIBER REINFORCECEMENT IN CONSTRUCTION: ADVANTAGES, DISADVANTAGES, PROSPECTS OF APPLICATION
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Abstract
The article describes the characteristics of composite reinforcement based on glass and carbon fibers, as well as relatively new in the construction market of fiberglass reinforcement of secondary polyethylene terephthalate. List the main factors that affect the physical and mechanical properties of composites. In the comparative analysis of the properties of composite materials with different types of reinforcing fibers, found FRPPT advantages and disadvantages, compared to the standard FRP. Show examples of application of composite reinforcement in the building construction of buildings and structures identify areas to better use, most of the different types of composites. Presented promising areas of application of composite reinforcement in FRPPT reinforced concrete structures, areas of further studies of the properties of the reinforcement and its work in reinforced concrete elements.
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References
Motavalli, M. FRP composites for retrofitting of existing civil structures in Europe: state-of-the-art review / M. Motavalli, C. Czaderski [Electronic resource]. – American Composites Manufacturers Association, 2007.
Лешкевич, О.Н. Перспективы применения композитной арматуры / О.Н. Лешкевич // Проблемы современного бетона и железобетона: материалы III Междунар. симп. (Минск, 9–11 нояб. 2011 г.): в 2 т. / М-во архитектуры и строительства Респ. Беларусь; Научно-исследовательское республиканское унитарное предприятие по строительству «Институт БелНИИС»; редкол.: М.Ф. Марковский [и др.]. – Минск: Минсктиппроект, 2011. – Т. 1: Бетонные и железобетонные конструкции. – С. 233–238.
Армированные пластики – современные конструкционные материалы / Э.С. Зеленский [и др.] // Рос. хим. журнал (Журнал Рос. хим. о-ва им. Д.И. Менделеева). – 2001. – Т. XLV, № 2. – С. 56–74.
Информационные материалы фирмы Sika [Электронный ресурс]. – 2011.
Теплова, Ж.С. Стеклопластиковая арматура для армирования бетонных конструкций / Ж.С. Теплова, С.С. Киски, Я.Н. Стрижакова // Строительство уникальных зданий и сооружений. – М., 2014. – № 9(24). – С. 49–63.
Bulletin 40: FRP reinforcement in RC structures. Technical report prepared by a working party of Task Group 9.3, FRP (Fibre Reinforced Polymer) reinforcement for concrete structures, 2007.
Фролов, Н.П. Стеклопластиковая арматура и стеклопластбетонные конструкции / Н.П. Фролов. – М.: Стройиздат, 1980. – 104 с.
Компания Алиен Технолоджис. История применения композитной арматуры // Национальный интернет-портал Республики Беларусь [Электронный ресурс]. – Режим доступа: http://alientechnologies.ru. – Дата доступа: 10.11.2015.
Litvinov, A. Applying carbon fiber in building structures: Bachelor’s Thesis / A. Litvinov. – Saimaa University of Applied Sciences, 2010. – 62 p.
Каданцева, А.И. Углеродные волокна: учеб. пособие / А.И. Каданцева, В.А. Тверской. – М.: МИТХТ им. М.В. Ломоносова, 2008. – 55 с.
Мальганов, А.И. Восстановление и усиление строительных конструкций аварийных и реконструируемых зданий: Атлас схем и чертежей / А.И. Мальганов, В.С. Плевков, А.И. Полищук. – Томск: Томский межотраслевой ЦНТИ, 1990. – 316 с.
Информационные материалы ЗАО «ХК Композит» [Электронный ресурс]. – 2015. – Режим доступа: http://www.atomeks.ru. – Дата доступа: 11.11.2015.
Considerations about non linear static analysis of a reinforced concrete frame retrofitted with FRP / M. Savoia [et al.] // Mecánica Computacional. – 2010. – Vol. XXIX, № 11. – P. 10173–10182.
Rosenboom, O. Analytical modeling of flexural debonding in CFRP strengthened reinforced or prestressed concrete beams / O. Rosenboom, S. Rizkalla // FRPRCS-8. – Patras, Greece, 2007.
Внешнее армирование железобетонных конструкций композиционными материалами / А.А. Шилин [и др.]. – М.: ОАО «Издательство “Стройиздат”», 2007. – 184 с.
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