Improvement in Fiber-Reinforced Polymer–Concrete Bond by External Pressure
Abstract
An experimental study evaluated the improvement in the bond of fiber-reinforced polymer (FRP) and concrete to dry and wet substrates from applied pressure. In the study, 12 full-sized pile specimens, including four controls, were wrapped by using two different glass FRP systems–- a prepreg and a wet layup–-and two different layouts typically used for unidirectional and bidirectional fibers. Wrapping was conducted inside a partially filled tank to ensure that the bonded areas of the dry and wet regions were identical. Sustained pressure was maintained during curing by using pressure or vacuum bagging. Bond improvement was evaluated from more than 400 pull out tests. Results showed that external pressure led to improved bond in both the dry and submerged regions. However, vacuum bagging was better for prepreg systems, whereas pressure bagging was better for wet layups. Transverse fiber layout typically used with bidirectional fibers gave better bond in controls where no external pressure was applied.
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References
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Article first published online: January 1, 2009
Issue published: January 2009
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This article was published in Transportation Research Record: Journal of the Transportation Research Board.
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Crossref: 6
- Glass Fiber-Reinforced Polymer Effectiveness in Field Repair of Piles
- FRP–Concrete Bond after 12-Year Exposure in Tidal Waters
- Underwater repair with composites
- Oxygen Permeability of Fiber-Reinforced Polymers
- Effective Repair for Corrosion Control Using FRP Wraps
- Fiber-Reinforced Polymer Pile Repair Incorporating Cathodic Protection
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