The shear capacity of existing concrete structures is often unable to meet current standards requirements. This may be attributable to increased load requirements, inadequate shear provisions in the original design, deterioration of materials or an increased demand in shear capacity owing to flexural strengthening. There are various approaches to the repair and strengthening of existing concrete structures in shear using fibrereinforced polymer (FRP), involving the use of plates or fabrics externally bonded to the web, prestressed straps wrapped around the beam or the use of bars mounted near the surfaces of the web. However, when only the top or bottom faces of the concrete member are accessible, as in the case of bridge beams made contigu...
From current bibliography and code review a lack emerges on the understanding of the underlying mech...
Nowadays FRP (fiber reinforced polymers) has been widely used for both strengthening and repair of r...
The deep embedment (DE) of fibre-reinforced polymer (FRP) bars is a promising shear-strengthening sc...
Shear forces are the most common governing failure mechanism of reinforced concrete bridge deck slab...
Shear forces are the most common governing failure mechanism of reinforced concrete bridge deck slab...
All over the world, many existing reinforced concrete structures are deemed no longer capable of sus...
The shear capacity of existing concrete bridge beams is often inadequate and unable to meet current ...
Sometimes structures are not as strong as we would like. Demolishing and rebuilding structures is ec...
Despite numerous studies, shear behaviour before or after strengthening is still not fully understoo...
The Deep Embedment (DE) technique is an innovative shear-enhancement retrofit technique for concrete...
The shear failure of Fibre Reinforced Polymers (FRP) strengthened reinforced concrete (RC) beams has...
With increasing numbers of strength-deficient concrete infrastructure assets, strengthening and repa...
The shear failure of Fibre Reinforced Polymers (FRP) strengthened reinforced concrete (RC) beams has...
Despite numerous studies, shear behaviour before or after strengthening is still not fully understoo...
Corrosion of steel reinforcement in concrete structures causes deterioration of concrete, resulting ...
From current bibliography and code review a lack emerges on the understanding of the underlying mech...
Nowadays FRP (fiber reinforced polymers) has been widely used for both strengthening and repair of r...
The deep embedment (DE) of fibre-reinforced polymer (FRP) bars is a promising shear-strengthening sc...
Shear forces are the most common governing failure mechanism of reinforced concrete bridge deck slab...
Shear forces are the most common governing failure mechanism of reinforced concrete bridge deck slab...
All over the world, many existing reinforced concrete structures are deemed no longer capable of sus...
The shear capacity of existing concrete bridge beams is often inadequate and unable to meet current ...
Sometimes structures are not as strong as we would like. Demolishing and rebuilding structures is ec...
Despite numerous studies, shear behaviour before or after strengthening is still not fully understoo...
The Deep Embedment (DE) technique is an innovative shear-enhancement retrofit technique for concrete...
The shear failure of Fibre Reinforced Polymers (FRP) strengthened reinforced concrete (RC) beams has...
With increasing numbers of strength-deficient concrete infrastructure assets, strengthening and repa...
The shear failure of Fibre Reinforced Polymers (FRP) strengthened reinforced concrete (RC) beams has...
Despite numerous studies, shear behaviour before or after strengthening is still not fully understoo...
Corrosion of steel reinforcement in concrete structures causes deterioration of concrete, resulting ...
From current bibliography and code review a lack emerges on the understanding of the underlying mech...
Nowadays FRP (fiber reinforced polymers) has been widely used for both strengthening and repair of r...
The deep embedment (DE) of fibre-reinforced polymer (FRP) bars is a promising shear-strengthening sc...
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