Axial Compression Tests on Corroded Reinforced Concrete Columns Consolidated with Fibre Reinforced Polymers
In: Kemija u industriji : Časopis kemičara i kemijskih inženjera Hrvatske; ISSN 0022-9830 (Print); ISSN 1334-9090 (Online); Volume 66; Issue 5-6; (2017)
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Reinforced concrete structure featured by strong bearing capacity, high rigidity, good integrity, good fire resistance, and extensive applicability occupies a mainstream position in contemporary architecture. However, with the development of social economy, people need higher requirements on architectural structure; durability, especially, has been extensively researched. Because of the higher requirement on building material, ordinary reinforced concrete structure has not been able to satisfy the demand. As a result, some new materials and structures have emerged, for example, fibre reinforced polymers. Compared to steel reinforcement, fibre reinforced polymers have many advantages, such as high tensile strength, good durability, good shock absorption, low weight, and simple construction. The application of fibre reinforced polymers in architectural structure can effectively improve the durability of the concrete structure and lower the maintenance, reinforcement, and construction costs in severe environments. Based on the concepts of steel tube concrete, fibre reinforced composite material confined concrete, and fibre reinforced composite material tubed concrete, this study proposes a novel composite structure, i.e., fibre reinforced composite material and steel tube concrete composite structure. The structure was developed by pasting fibre around steel tube concrete and restraining core concrete using fibre reinforced composite material and steel tubes. The bearing capacity and ultimate deformation capacity of the structure was tested using column axial compression test. This work is licensed under a Creative Commons Attribution 4.0 International License.
U modernoj arhitekturi važnu ulogu imaju ojačani betonski elementi zbog velike nosivosti, krutosti, vatrootpornosti i široke primjenjivosti. S razvojem socioekonomskih prilika ti se zahtjevi povećavaju, a posebno se istražuje trajnost. Strože uvjete koje moraju ispuniti građevni materijali ne mogu zadovoljiti uobičajene ojačane betonske strukture pa su razvijeni novi materijali, npr. vlaknima mikroarmirani polimeri. U usporedbi s čeličnom armaturom, polimeri armirani vlaknima imaju više prednosti: visoku vlačnu čvrstoću, trajni su, dobro apsorbiraju udarce, lagani su i jednostavne konstrukcije. Primjenom vlaknima armiranih polimera može se povećati trajnost betonskih elemenata te smanjiti troškove. Ovdje su predložene nove kompozitne strukture, tj. kompozitni materijal mikroarmiran vlaknima i betonski kompozitni element s čeličnom cijevi. Strukturni su elementi izgrađeni postavljanjem vlakana oko betona ovijenog čeličnom cijevi i učvršćivanjem betonske jezgre kompozitnim materijalom armiranim vlaknima i čeličnim cijevima. Nosivost i krajnja deformacija istraženi su aksijalnim tlačenjem. Ovo djelo je dano na korištenje pod licencom Creative Commons Imenovanje 4.0 međunarodna.
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Axial Compression Tests on Corroded Reinforced Concrete Columns Consolidated with Fibre Reinforced Polymers
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Quelle: | Kemija u industriji : Časopis kemičara i kemijskih inženjera Hrvatske; ISSN 0022-9830 (Print); ISSN 1334-9090 (Online); Volume 66; Issue 5-6; (2017) |
Veröffentlichung: | 2017 |
Medientyp: | Elektronische Ressource |
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