Kazimierz Furtak scite author profile

Fibre-reinforced polymer materials (FRP) are increasingly used to reinforce structural elements. Due to this, it is possible to increase the load-bearing capacity of polymer, wooden, concrete, and metal structures. In this article, the authors collected all the crucial aspects that influence the behaviour of concrete elements reinforced with FRP. The main types of FRP, their characterization, and their impact on the load-carrying capacity of a composite structure are discussed. The most significant aspects, such as type, number of FRP layers including fibre orientation, type of matrix, reinforcement of concrete columns, preparation of a concrete surface, fire-resistance aspects, recommended conditions for the lamination process, FRP laying methods, and design aspects were considered. Attention and special emphasis were focused on the description of the current research results related to various types of concrete reinforced with FRP composites. To understand which aspects should be taken into account when designing concrete reinforcement with composite materials, the main guidelines are presented in tabular form.

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Experimental investigations of load-bearing capacity of composite timber-glass I-beams

Furtak

Rodacki

2018

Archives of Civil and Mechanical Engineering

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Contactless optical measurement methods for glass beams and composite timber-glass I-beams

2019

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Idee kształtujące innowacyjne wyzwania techniki budowlanej

Czarnecki

Deja

Furtak³

et al. 2017

CONSTRUCTION MATERIALS

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The influence of concrete surface preparation on the effectiveness of reinforcement using carbon fibre-reinforced polymer in high-performance, self-compacting, fibre-reinforced concrete

Ostrowski

Furtak

2021

Composite Structures

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The effect of ribbed reinforcing bars location on their bond with high-performance concrete

Dybeł¹,

Furtak²

2015

Archives of Civil and Mechanical Engineering

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Assessment Of The Casting Position Factor In Reinforced Concrete Elements In View Of Experimental Studies

Dybeł¹,

Furtak²

2014

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The paper presents the results of experimental investigations performed by the authors on the casting position factor. It was proved that at the height of reinforced concrete elements there are different bond conditions. Moreover, the bond depends on concrete mechanical properties, element height as well as concrete mix composition and consistency. The experiments also showed the advisability of determining the casting position factor separately for bars from normal concrete and those from high-performance concrete (HPC). The analysis of investigation results has shown that "good" bond conditions are a relative concept and depend on, among other things, element height. The higher the element the better the concrete to lower bars bond. Consequently, elements of considerable height (higher than 600 mm) demonstrate a bigger difference between concrete to upper bars bond and concrete to lower bars bond.

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