Ömer Mercimek scite author profile

An analytical model was developed using finite-element software to simulate the load-transfer mechanisms between concrete and strengthening strips of carbon-fibre-reinforced polymer. The strips were bonded to the concrete surface and additionally fixed with fan-type carbon-fibre-reinforced polymer anchors. The model was developed using the results of 14 pull tests on concrete blocks strengthened with variously sized and anchored strips. The anchors were represented by increasing the bonding strength in the anchor contact area. The numerical results were compared with experimental results and showed good correlation. The model was then used to investigate the influence of strip width and length, number of anchors and concrete strength on load-transfer behaviour. Finally, a mathematical model was proposed for calculating the bond strength between concrete and a bonded and anchored carbon-fibre-reinforced polymer strip.

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Effect of anchorage number and CFRP strips length on behavior of strengthened glulam timber beam for flexural loading

İşleyen

Ghoroubı

Mercimek

et al. 2021

Advances in Structural Engineering

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Laminated wooden beams are more preferred in the production of wooden structures than solid timber beams because they have a higher load-carrying capacity and allow larger openings to be used in the structure. The widespread use of wooden structures and the increasing size of the structures have revealed the need for strengthened laminated wooden beams and increase their ultimate load capacity. It has become necessary to develop reinforcement details to increase the ultimate load capacity of laminated wooden beams in wooden railroads or highway bridge beams, where the traffic load increases, especially in large wooden structures, in cases where large openings must be passed. Within the horizon of the study, the behavior and performance of three-layer glulam wooden beams strengthened with anchorage and non-anchorage CFRP strips with different bonding length under flexural loading were investigated experimentally. The three-point bending test was applied to glulam timber beam test specimens produced by laminating yellow pine wood material using the polyurethane adhesive. General load-displacement behaviors, ultimate load capacity, initial stiffness, displacement ductility ratios, and energy dissipation capacities were obtained. The increase in the bonding length of the CFRP strips used for strengthening in the glulam timber beam specimens and the use of CFRP fan type anchors at the strip ends increased the ultimate load capacity and initial stiffness values of the wooden beams, as well as the displacement ductility ratios and energy dissipation capacity values.

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Strength, ductility, and energy dissipation capacity of RC column strengthened with CFRP strip under axial load

Mercimek

Ghoroubı

Çakmak

et al. 2020

Mechanics Based Design of Structures and Machines

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Behavior of glulam timber beam strengthened with carbon fiber reinforced polymer strip for flexural loading

İşleyen

Ghoroubı

Mercimek

et al. 2021

Journal of Reinforced Plastics and Composites

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In the last 20 years, the use of wooden structures and their dimensions have gradually increased. The wood application has increased in different structures such as multistory buildings, sports, industrial facilities, road and railway bridges, power transmission lines, and towers. The widespread use and size of wood structures have increased the research on developing special types of wood products supported by composite materials. Laminated wood elements are the leading composite wood materials. Laminated wooden beams allow making much larger openings than standard solid wood structural elements. The development of the sizes and usage areas of wooden structures has increased the capacity of glulam structural elements and reveals the need to improve their performance. Carbon fiber reinforced polymers (CFRPs) are the most suitable options for increasing the bearing capacity values of glulam beams and improving general load–displacement behaviors. In this study, the use of CFRP strips in different layouts to increase glulam wooden beams and the application of CFRP fan-type anchors in the CFRP strip endpoints are the studied variables. Anchored and non-anchored glulam wooden beams reinforced with CFRP strips with different layouts were tested using a three-point bending test. The ultimate load capacity, initial stiffness, displacement ductility ratio, energy dissipation capacity, failure mechanisms, and general load–displacement behavior of wooden beam test specimens were obtained and interpreted as a result of the experiments.

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Ömer Mercimek

Experimental investigation of damaged square short RC columns with low slenderness retrofitted by CFRP strips under axial load

Modelling bond between concrete and bonded and anchored carbon-fibre polymer strips

Effect of anchorage number and CFRP strips length on behavior of strengthened glulam timber beam for flexural loading

Strength, ductility, and energy dissipation capacity of RC column strengthened with CFRP strip under axial load

Behavior of glulam timber beam strengthened with carbon fiber reinforced polymer strip for flexural loading

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