Alamillo Bridge
Design
The static concept of the bridge can be traced back to the 1986 sculpture by Calatrava entitled 'Running Torso', in which inclined stacked marble cubes are balanced by a tensioned wire. The Alamillo Bridge consists of a single straight steel-shell tower, infilled with reinforced concrete and inclined backward, counterbalancing a 200 m span with thirteen pairs of cables. Since the weight of the tower is made to be sufficient to counter-balance the deck, back stays are thus not required, effectively substituting the weight of an inclined tower for one set of stay cables. In this way, a new type of cantilever spar cable-stayed bridge was conceived in 1987.
The original intent was to build two symmetrical bridges on either side of the island, but in the end the Alamillo's singular asymmetric design has proved most striking.
The bridge deck consists of a hexagonal steel-box-beam spine to which the stay cables are attached. Side steel wings cantilevered off the hexagonal spine support the traffic decks, three lanes on each side. The top of the hexagonal spine, elevated 1.6 metres (5 feet) above the road level, serves as an elevated footway and cycle lane in between the traffic lanes.
This bridge represented the soaring aspirations of the city of Seville in preparation for Expo '92, and is visible from the top of La Giralda, the former minaret which is the sentimental roof of the city, linking Seville's past and present. Similar to the Brooklyn Bridge, there is an elevated walkway for pedestrians. In addition to the elevated walkway, the Alamillo Bridge features a lookout at the top of the inclined tower, accessible by a stairway enclosed within the tower.
The Alamillo Bridge is the first cable-stayed bridge that is balanced solely through the weight of the massive tower, not requiring any type of back stays or anchorage. There are 54 steel piles under the bridge, acting passively under the tower. Calatrava's Sundial Bridge in Redding, California (2004), the Mesoghion Avenue Footbridge in Athens and Chords Bridge in Jerusalem (2008) are similar in design to the Alamillo Bridge.
Critique
While the Alamillo Bridge is dramatic and widely acclaimed aesthetically, an analysis of its structural engineering show that it has an inefficient dynamic structural form because of the lack of backstays or anchorage to provide a restoring force under changing loads. One indication of this is the extreme weight of the pylon member needed in the Alamillo Bridge compared with other cable-stayed bridges such as the Erasmus Bridge in Rotterdam, which has a backward-inclined pylon and backstays. The total mass of the pylon of the Alamillo Bridge is over 10 times the pylon mass of the Erasmus Bridge, which has even a longer span than the Alamillo.
See also
- Puente de la Mujer, Buenos Aires, Argentina
- Samuel Beckett Bridge, Dublin, Ireland
- Sundial Bridge at Turtle Bay, California, United States
- Puente de la Unidad, Monterrey, Mexico
- Erasmus Bridge, Rotterdam, Netherlands
References
- ^ "Puente de Alamillo (Harp Bridge) Seville, Andalusia, Spain". bristol.ac.uk. Retrieved 11 May 2020.
44 Pictures from Robert Gregory & David Blockley, UK - September 2008
- ^ Pollalis, Spiro N. (August 2002). What Is a Bridge? The Making of Calatrava's Bridge in Seville. MIT Press. pp. 199, 146 illus. ISBN 9780262661348.
- ^ Calatrava, Santiago. "Alamillo Bridge & Cartuja Viaduct". calatrava.com. Retrieved 11 May 2020.
- ^ McQuaid, Matilda. "Santiago Calatrava: structure and expression" (PDF). MOMA. The Museum of Modern Art: Distributed by H.N. Abrams. Retrieved 13 May 2020.
- ^ Guest, James K.; Draper, Powell; Billington, David P. (October 2013). "Santiago Calatrava's Alamillo Bridge and the Idea of the Structural Engineer as Artist". ASCE library. Journal of Bridge Engineering 18 (10), 936-945. doi:10.1061/(ASCE)BE.1943-5592.0000445. Retrieved 13 May 2020.
Here a thorough structural analysis of one of Calatrava's most well-known bridges is performed to determine how well it achieves the goals of structural engineering.