publication . Article . Other literature type . 2010

ДОЛГОВЕЧНОСТЬ ПОЛИМЕРОВ, АРМИРОВАННЫХ ВОЛОКНАМИ, В БЕТОННЫХ КОНСТРУКЦИЯХ

Kalman, Tanja; Bjegović, Dubravka; Sigmund, Vladimir;
Open Access Croatian
  • Published: 01 Jul 2010
  • Country: Croatia
Abstract
The paper starts with assertion that the use of fibre-reinforced polymers for reinforcement of concrete elements is a technique quite possible for corrosion prevention. The use of polymer bars for new or damaged structures requires knowledge of mechanical properties and durability of material subjected to long-term exposure to environmental conditions. An overview is given about current research results and knowledge gained on the behaviour and properties of polymer materials, and also about interaction mechanisms of consequence for durability.
Subjects
free text keywords: polimeri armirani vlaknima, trajnost, betonske konstrukcije, korozija, mehaničke karakteristike, uvjeti okoliša, fibre reinforced polymers, durability, concrete structures, corrosion, mechanical properties, environmental conditions, polymères renforcés de fibres, durabilité, structures en béton, propriétés mécaniques, conditions environnementales, полимеры армированные волокнами, долговечность, бетонные конструкции, коррозия, механические характеристики, условия окружающей среды, faserbewehrte Polymere, Dauerhaftigkeit, Betonkonstruktionen, Korrosion, mechanische Eigenschaften, Umweltbedingungen, TEHNIČKE ZNANOSTI. Građevinarstvo., TECHNICAL SCIENCES. Civil Engineering., polimeri armirani vlaknima; trajnost, betonske konstrukcije; korozija; mehaničke karakteristike; uvjeti okoliša, fibre reinforced polymers; durability; concrete structures; corrosion; mechanical properties; environmental conditions

Beslać, J.; Bjegović, D.; Rosković, R.: Inovativni materijali i tehnologije u građenju i održavanju betonskih konstrukcija, Građevinar 57 (2005), 4, 247-255. [OpenAIRE]

Bhise, V. S.: Strength degradation of GFRP bars, Thesis for the degree M.Sc., Virginia Polytechnic Institute and State University, Blacksburg, VA. (2002) [OpenAIRE]

Bank, L.C.; Gentry, T.R.; Barkatt A.: Accelerated tests Methods to Determine the Long -Term Behavior of FRP Composite Structures: Environmental Effects, Journal of Reinforced Plastics and Composites, Vol.14, pp. 559-587, (1995)

ACI 440R-07 ,(2007) Report on Fiber-Reinforced Polymer (FRP) Reinforcement for Concrete Structures, ACI Committee 440, American Concrete Institute, Farmington Hills, Mich.

Homam, S. M.: Durability of fibre reinforced polymers used in concrete structures, Thesis for the degree M.Sc., University of Toronto, Canada, (2000)

Chen, Y.; Davalos, J. F.; Ray, I.; Kim, H. Y.: Accelerated aging tests for evaluations of durability performance of FRP reinforcing bars for concrete structures,Composite Structures 78, pp. 101-111, (2007) [7] Gonenc, O.: Durability of Service Life Prediction of Concrete Reinforcing Materials, Thesis for the degree M.Sc., University of Wisconsin, Madison, (2003)

Wang, Y.C.; Kodur, V.: Variation of strength and stiffness of fibre reinforced polymer reinforcing bars with temperature, Cement & Concrete Composites, 27 (2005), pp. 864- 874.

Ceroni, F.; Cosenza, E.; Gaetano, M.; Pecce, M.: Durability issues of FRP rebars in reinforced concrete members, Cement & Concrete Composites 28, pp. 857- 868, (2006) [OpenAIRE]

Micelli, F.; Nanni, A.: Durability of FRP rods for concrete structures, Construction and Building materials 18, pp. 491- 503, (2004) [OpenAIRE]

Uomoto, T.: Durability Considerations Reinforcements, 5th International Conference Reinforced Plastics for Reinforced Concrete Cambridge, UK, pp. 17-32, (2001)

Myers, J. J.; Viswanath, T.: A Worldwide Survey of Environmental Reduction Factors for Fiber Reinforced Polymers (FRP), Proceedings of the 2006 StructuresCongress Structural Engineering and Public Safety, St. Louis, Missouri, USA, (2006)

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