Burdekin Bridge

Coordinates: 19°38′24″S 147°23′40″E / 19.64000°S 147.39444°E / -19.64000; 147.39444

Burdekin Bridge

Burdekin Bridge
Carries Bruce Highway
Motor vehicles, Railway
Crosses Burdekin River
Locale between the towns of Ayr and Home Hill, Queensland, Australia
Other name(s) Burdekin River Bridge or the Silver Link
Preceded by Low-set bridge (Destroyed)
Characteristics
Design Truss bridge
Material Steel
Total length 1,097 metres (3,599 ft) (or 1,103 metres (3,619 ft))[1]
Longest span 76 metres (249 ft)
Number of spans 10 main spans and 22 approach spans
History
Designer Harry Lowe, Noel Ullman, Bill Hansen
Construction begin April 1947
Construction end 1957
Opened 15 June 1957[2]
Statistics
Daily traffic 7000
Toll No
Aerial photograph of Burdekin Bridge construction site showing piers with Railway Bridge in foreground c 1952

The Burdekin Bridge (known as the Burdekin River Bridge or Silver Link) spans the Burdekin River between the towns of Ayr and Home Hill, Queensland, Australia. Located on the Bruce Highway which is part of Highway 1, it is an important link in the national road network. It is a road-rail bridge which provides high flood immunity link between north and south Queensland.[1]

The Bridge was completed in 1957. Construction began 10 years earlier in 1947. At 1097 metres (3,600 ft) in length, it is one of the longest multi-span bridges in Australia and longer than Brisbane's Story Bridge or New South Wales's Hawkesbury River Railway Bridge. It is 46 metres shorter than Sydney's Harbour Bridge.[1]

History

Originally, it was thought that the bridge could not be built in its present location. No trace of rock could be found on which to build the bridge foundations. In 1946, two high-ranking Government engineers visited India to inspect a number of bridges built on sand foundations. The same technique was used for the Burdekin Bridge and it is the only bridge in Australia not built with a firm foothold.

The bridge rests on 11 huge, hollow, concrete caissons sunk into the river bed. The caissons are 17 metres across the top (measured parallel to the stream) and vary in width from 5.5 to 7.6 metres. The caissons were sunk into the river bed to a depth of about 30 metres. Add to that the approximately 20 metres that the caissons rise above the bed and the end result is some very massive pieces of concrete. Each weighs about 4,000 tons. The caissons were fitted with steel "cutting edges" to help them sink. The steel used in the cutting edges weighed 238 tons.

Construction of the first caisson started in 1947 after the "wet season". As each caisson rose in height, sand was removed from the centre of the caisson to make it sink into the sand bed. To get such a tremendous mass to sink gradually and evenly was difficult. To add to the difficulties, often a caisson became stuck and a diver had to be sent down to find the problem and remedy it. Another difficulty was that each caisson had to be sunk to a secure depth before the "wet season". If a caisson was not firmly anchored deep enough, a flood could have swept it away.

Because the bridge does not have rock foundations but is entirely supported by sand, it is sometimes described as a floating bridge. It is not a true floating bridge as it does not float on water.

The metal bridge spans were bolted together with high-tensile bolts instead of being riveted. At the time, no other Australian bridge had ever been constructed this way.

With all the difficulties, plus the shortage of steel after the Second World War, the construction took almost a decade to complete at a cost of $6 million. Despite these setbacks, the new bridge greatly assisted in travel between Ayr, Queensland and Home Hill, Queensland and formed a vital link between North and South Queensland.

The Silver Link replaced a bridge which is set just off the river bed. It was regularly covered and washed away by flood waters but it is still possible to see the remains of the old bridge when the river level is low.

Due to the special construction of the bridge, with steel beams forming a truss over the highway, it is regularly being closed to let pass oversize road trains which take both lanes on the narrow bridge.

In October 2010 the Burdekin Bridge was recognised as a National Engineering Heritage Landmark.[2]

A 5-year bridge maintenance and rehabilitation project had commenced in 2013. It is the first major structural rehabilitation work undertaken since the bridge construction.[1]

See also

List of road-rail bridges

References

  1. 1 2 3 4 "Burdekin River Bridge: maintenance and rehabilitation project". Department of Transport and Main Roads, Queensland. Retrieved 19 October 2010.
  2. 1 2 Wensley, Penelope (5 October 2010). "Engineering Heritage National Landmark Award to the Burdekin River Bridge". Government House, Queensland. Archived from the original on 24 February 2014. Retrieved 7 September 2015.

Further reading

External links

Wikimedia Commons has media related to Burdekin Bridge.
This article is issued from Wikipedia - version of the Thursday, February 11, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.