A combination of flexible moulds as external formwork and bespoke robotically fabricated fibre reinforced polymer cages as tensile reinforcement offers a new opportunity for the manufacture of structural concrete components that have been optimised to minimise material use. This technology could potentially help in our quest to reduce carbon emissions in the construction industry, yet there remain technical issues to overcome if such flexibly formed concrete structures are to become a reality. This paper presents experimental research on fabric-formed T beams reinforced with wound fibre-reinforced polymer (W-FRP) to quantify the shear contribution of this novel system. It is shown that, depending on the geometry of the beam, carefully chose...
Thin-walled textile-reinforced concrete beams have recently emerged as a promising approach for mate...
This paper presents a study on the effectiveness of TRM jacketing in shear strengthening of full-sca...
This paper describes the outcomes of recent research that is, for the first time, aiming to complete...
Flexible formwork has been used in the casting of structural concrete since the 1980s. Research has ...
Fabric formwork is a casting system that uses woven fabrics as the mould for concrete, utilising the...
Flexible fabric formworks and bespoke Wound Fibre-Reinforced Polymer (W-FRP) cages have been propose...
A novel shear reinforcing system, Wound Fiber Reinforced Polymer (W-FRP), is proposed that capitaliz...
All over the world, many existing reinforced concrete structures are deemed no longer capable of sus...
Steel reinforced concrete is perhaps our most widely used man-made material (approximately 1.5m^3 of...
Casting non-prismatic optimised concrete beams in flexible fabric formwork can lead to a significant...
This study investigates the fabrication and the structural performance of concrete beams using weft-...
This paper describes current research at the University of Bath and the University of Miami that is,...
Sometimes structures are not as strong as we would like. Demolishing and rebuilding structures is ec...
The winding of Fibre Reinforced Polymer (FRP) tows around longitudinal reinforcing bars provides a n...
Thin-walled textile-reinforced concrete beams have recently emerged as a promising approach for mate...
This paper presents a study on the effectiveness of TRM jacketing in shear strengthening of full-sca...
This paper describes the outcomes of recent research that is, for the first time, aiming to complete...
Flexible formwork has been used in the casting of structural concrete since the 1980s. Research has ...
Fabric formwork is a casting system that uses woven fabrics as the mould for concrete, utilising the...
Flexible fabric formworks and bespoke Wound Fibre-Reinforced Polymer (W-FRP) cages have been propose...
A novel shear reinforcing system, Wound Fiber Reinforced Polymer (W-FRP), is proposed that capitaliz...
All over the world, many existing reinforced concrete structures are deemed no longer capable of sus...
Steel reinforced concrete is perhaps our most widely used man-made material (approximately 1.5m^3 of...
Casting non-prismatic optimised concrete beams in flexible fabric formwork can lead to a significant...
This study investigates the fabrication and the structural performance of concrete beams using weft-...
This paper describes current research at the University of Bath and the University of Miami that is,...
Sometimes structures are not as strong as we would like. Demolishing and rebuilding structures is ec...
The winding of Fibre Reinforced Polymer (FRP) tows around longitudinal reinforcing bars provides a n...
Thin-walled textile-reinforced concrete beams have recently emerged as a promising approach for mate...
This paper presents a study on the effectiveness of TRM jacketing in shear strengthening of full-sca...
This paper describes the outcomes of recent research that is, for the first time, aiming to complete...
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