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Structural behavior of symmetric spindle-shaped Tensairity girders with reinforced chord coupling
Highlights Two new designs of Tensairity girders with reinforced chord coupling are investigated. A reinforced chord coupling significantly improves the behavior of Tensairity girders. The stiffness could be increased by a factor 3 and the ultimate load by a factor 2. A live load to dead load ratio of 95 has been achieved at 50kPa. The structural behavior can be well predicted by FEA or simple analytical models.
Abstract Two new designs for spindle-shaped Tensairity girders with a reinforced coupling between the chords are proposed. The first one uses a continuous coated-fabric web and the second one a discrete reinforcement composed of 23 steel wire ropes to facilitate the load transfer between the chords. Both girders are studied experimentally and numerically and compared to the original design. A simple analytical model is proposed for the homogeneous load case. Results show that the behavior of the Tensairity girders is significantly improved by the integration of a reinforcement for all tested load configurations. Under homogeneous distributed load at 25kPa the coupling increases the stiffness and the ultimate load by about a factor 3 and 2, respectively, while the weight of the girder increases due to the fabric web or the cables by only 12% and 29%, respectively. At 50kPa a live load to dead load ratio of 95 has been achieved, which is twice as much as for the original design.
Structural behavior of symmetric spindle-shaped Tensairity girders with reinforced chord coupling
Highlights Two new designs of Tensairity girders with reinforced chord coupling are investigated. A reinforced chord coupling significantly improves the behavior of Tensairity girders. The stiffness could be increased by a factor 3 and the ultimate load by a factor 2. A live load to dead load ratio of 95 has been achieved at 50kPa. The structural behavior can be well predicted by FEA or simple analytical models.
Abstract Two new designs for spindle-shaped Tensairity girders with a reinforced coupling between the chords are proposed. The first one uses a continuous coated-fabric web and the second one a discrete reinforcement composed of 23 steel wire ropes to facilitate the load transfer between the chords. Both girders are studied experimentally and numerically and compared to the original design. A simple analytical model is proposed for the homogeneous load case. Results show that the behavior of the Tensairity girders is significantly improved by the integration of a reinforcement for all tested load configurations. Under homogeneous distributed load at 25kPa the coupling increases the stiffness and the ultimate load by about a factor 3 and 2, respectively, while the weight of the girder increases due to the fabric web or the cables by only 12% and 29%, respectively. At 50kPa a live load to dead load ratio of 95 has been achieved, which is twice as much as for the original design.
Structural behavior of symmetric spindle-shaped Tensairity girders with reinforced chord coupling
Galliot, Cédric (author) / Luchsinger, Rolf H. (author)
Engineering Structures ; 56 ; 407-416
2013-05-13
10 pages
Article (Journal)
Electronic Resource
English
Structural behavior of symmetric spindle-shaped Tensairity girders with reinforced chord coupling
| Online Contents | 2013
Structural Behavior of Symmetric Spindle-Shaped Tensairity Girders
| Online Contents | 2013
Structural Behavior of Symmetric Spindle-Shaped Tensairity
| British Library Online Contents | 2013