A suspended structure is a structure which is supported by cables coming from beams or trusses which sit atop a concrete center column or core. The design allows the walls, roof and cantilevered floors to be supported entirely by cables and a center column.
Another type of suspended structure, suspended catenary, uses outer-wall concrete columns angled away from the center with a cable system strung between them suspending a roof and outer wall structure. In this example there are no supports or visual obstructions inside the structure.
Minimal interior visual obstruction is a feature of all suspended structure buildings. The architectural method creates a visually striking open space in the interior of the structure. The load for the suspended structure is either a suspended catenary or is supported by truss-work carrying the weight of the building through a building core. [3]
Engineering
Suspended structures of the center column type utilize high-strength cable to suspend or support the floors. In some cases beams are cantilevered out from the concrete column at the center of the building. From the top of the center column, cables are used to support the roof system and the walls. Cables run down from the top of the tower to support floors. The external skeleton of the structure is a type of curtain wall which also is supported by cables.[4] Suspended structures often allow much light to enter, because of the unobstructed interior.[5]
An example of a catenary-shaped suspended structure is the Eero Saarinen designed Dulles International Airport. The roof of the structure is made up of suspension cable which stretches across angled concrete columns. In the design of Dulles airport, the floor, the columns and the roof all work together to allow the walls and ceiling to float.[6] This leaves a large open space for the building.[7]
The Yoyogi National Gymnasium in Tokyo is an example of a cable suspended structure. The roof system is a large span and the structure has been called "one of the most beautiful buildings in the 20th century", largely due to the suspended roof system.[8]
^Lamb, Robert; Morrissey, Michael; Kiger, Patrick J. (12 November 2021). "How Bridges Work". Science How Stuff Works. Archived from the original on 15 January 2022. Retrieved 15 January 2022.
^"BP-building". inventaris onroerenderfgoed. Onroerenderfgoed. 29 March 2019. Archived from the original on 14 January 2022. Retrieved 14 January 2022.