Self-anchored suspension bridge

Self-anchored suspension bridge
The main span of the eastern span of the San Francisco–Oakland Bay Bridge, the largest example of a self-anchored suspension bridge in the world.
Ancestor	Suspension bridge
Related	None
Descendant	None
Carries	Pedestrians, automobiles, trucks, light rail
Span range	Medium
Material	Steel rope, steel eyebar, concrete spar, post-tensioned concrete deck
Movable	No
Design effort	high
Falsework required	Usually

A self-anchored suspension bridge is a suspension bridge type in which the main cables attach to the ends of the deck, rather than directly to the ground or via large anchorages.^[1] The design is well-suited for construction atop elevated piers, or in areas of unstable soils where anchorages would be difficult to construct.

Difference between types of bridges
Suspension bridge with the main cables attached to the ground (black squares)
Self-anchored suspension bridge; the main cables are attached to the end of the road deck

The load path of the self-anchored suspension (SAS) bridge converts vertical loads into tension forces in the main cables which are countered by compressive forces in the towers and deck. The system balances forces internally without external anchorage requirements making it suitable for sites where large horizontal forces are difficult to anchor. This is similar to the method used in a tied-arch bridge where arch member compression is balanced by tension in the deck.

History

The self-anchored suspension bridge form originated in the mid-19th century, with a published description by Austrian engineer Josef Langer in 1859 and U.S. Patent No. 71,955 by American engineer Charles Bender in 1867. The form was applied to a handful of Rhine River crossings in Germany during the first half of the twentieth century.^[2]

Examples

The SAS portion of the eastern span replacement of the San Francisco–Oakland Bay Bridge (2013) is a single-tower asymmetric bridge with a main span of 385 m (1,263 ft). It is currently the largest SAS bridge in the world.^[3]

The Pingsheng Bridge (2006) in China is a single-tower bridge with a main span of 350 m (1,148 ft).

The Konohana Bridge (1990) in Japan and the Yeoungjong Grand Bridge (2000) in South Korea, both have two towers with a central span of 300 m (984 ft).

The Three Sisters Bridges of Pittsburgh are the earliest examples (1924–28) of this bridge type in the US.

The Chelsea Bridge (1937) in London, England.

The Gagarin Street Bridge [ru] in Arkhangelsk, Russia.

Construction falsework on left; force schematic on right
Elevation and plan view of single-tower SAS bridge portion of 2013 eastern span of San Francisco-Oakland bay bridge. Not shown: cable is continuous across the western end, under roadway.

Construction method

The nature of the self-anchored suspension bridge necessitates the temporary construction of falsework, in the form of compression struts or an underdeck, before work begins on the permanent structure. This requirement is inherent in the structure's definition.

In the absence of suspension via cableage, the deck of a suspension bridge is incapable of self-support. On a suspension bridge of the more usual earth-anchored type, both of the primary (i.e., horizontal) cable's anchorages exist prior to construction in the form of solid terrain. In the self-anchored suspension bridge, however, the cable must be anchored to the bridge deck, which has yet to be built and will not bear its own weight; ergo, falsework must be employed until the final method of suspension is possible.

The cables apply strong axial forces onto the bridge girders, which may require strengthening. Therefore, self-anchored suspension bridge spans tend to be smaller than earth-anchored ones.^[4]

Cable anchors

As in a traditional suspension bridge, the primary cable type may be multiple parallel independent cables as in the image at right of the Hutsonville Bridge (no longer extant), or eyebars, or a more conventional composite cable.

References

^ "Self-anchored suspension bridges". structurae.net. Retrieved 22 July 2022.
^ John A. Ochsendorf and David P. Billington, "Self-Anchored Suspension Bridges," ASCE Journal of Bridge Engineering, vol. 4, No. 3 (August 1999): 151-156.
^ Cabanatuan, Michael (21 November 2012). "Bay Bridge span's 'Big Lift' complete". SF Gate. Retrieved 13 January 2013.
^ Chen, Wai-Fah; Duan, Lian (2014). Bridge Engineering Handbook: Fundamentals (2nd ed.). Boca Raton, Florida: CRC Press, Taylor and Francis. p. 16. ISBN 9781439852347.