King Street Bridge (Melbourne)

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King Street Bridge
Crown Casino Complex and King Street Bridge.jpg
King Street Bridge and Crown Casino from the Rialto Towers
Coordinates 37°49′19.5″S144°57′29.0″E / 37.822083°S 144.958056°E / -37.822083; 144.958056
Carries King Street
Crosses Yarra River
Maintained by VicRoads
Preceded by Queens Bridge
Followed byClarendon Street Bridge
History
Designer Utah Construction Company
Constructed byUtah Construction Company
Fabrication by BHP
Opened12 April 1961 (1961-04-12)
Location
King Street Bridge (Melbourne)

The King Street Bridge carries King Street over the Yarra River in Melbourne, Australia. The bridge continues south as an elevated viaduct, with the Crown Casino built around it in later years.

Contents

As originally constructed, the bridge had eight lanes across the Yarra River, two through lanes in each direction connecting King Street to Kings Way, in addition to two lanes on each side that connected to Yarra Bank Road. At the south end north facing on and off ramps connected to Whiteman Street, and the running lanes from the viaduct descend to ground level, with tram route 58 emerging from City Road to the median strip. [1] In the 1990s, the development of Crown Casino closed Yarra Bank Road, and the bridge ramps were connected to the basement carpark of the complex. [2] [3]

The south end of the bridge has been undergoing differential settlement between the approach ramps resting on fill, and the suspended section supported by bored piles. [4] [5]

History

Viewed from the west King Street Bridge Melbourne.jpg
Viewed from the west
Elevated section of Kingsway headed north through Crown Casino KingsWay-Crown.jpg
Elevated section of Kingsway headed north through Crown Casino
Looking south to the end of the elevated section of Kingsway KingsWay.jpg
Looking south to the end of the elevated section of Kingsway

The Country Roads Board (later VicRoads), under instructions from the government, prepared specifications in 1956 for a bridge to cross the Yarra River. Expectations were of world-wide tenders for the design and construction of a bridge 410 feet (120 m) long and 149 feet (45 m) wide and having a continued elevated structure 1,880 feet (570 m) long and 63 feet (19 m) wide [6] over the Yarra River at King Street, together with a viaduct crossing above the Port Melbourne and St Kilda railway lines, Whiteman Street, Queensbridge Street, City Road and Hanna Street, and returning to the present level of Hanna Street (later Kings Way) near Grant Street, South Melbourne. [7] [8] Together with the construction of the Flinders Street overpass, the whole project was estimated to cost 3.5mil. [6] Seven tenderers submitted a total of 14 tenders for the work when tenders closed on 29 January 1957, and after examination by the Board's officers, the government accepted the tender of Utah Australia. [7]

Contractors from Utah Australia began their operations on the site on 25 November 1957, building a temporary bridge to give access to the eventual location of the bridge's piers over the river. [9] The passing of the King-street Bridge Act 1957 [8] through the Parliament of Victoria on 18 December 1957, granted formal permission for the bridge to be built, gave the Country Roads Board powers to take ownership of relevant lands and not to inhibit the operations of the Port Melbourne and St Kilda railway lines during construction, declared the road a "public highway" once completed, and apportioned the total cost of to be borne as follows: 65% by the Victorian government, 30% by the City of Melbourne, and 5% by the City of South Melbourne. [8]

The King Street Bridge was designed in 1959 by Hardcastle & Richards, consulting engineers for Utah Australia, on behalf of the Country Roads Board, and constructed over the next two years. [4] [10] The substructure of the main bridge was completed in November 1959, and the east and west lanes of the low-level bridge over the Yarra were completed except for handrailing and lighting. [11]

Traffic commenced using the east and west lanes of the low-level bridge in November 1960, [12] and on 12 April 1961, the main bridge was opened by the Premier of Victoria Henry Bolte. [12] [13] [14] It is of a welded, steel girder concrete deck cantilever-suspended span construction with suspended spans up to approximately 100 feet (30 m) long.

Collapse

Soon after completion, on 10 July 1962, one span collapsed under the weight of a 47-ton semi-trailer, though the weight was within the bridge limits.

The following, except for the "Reconstruction" section, is taken from the report of the Royal Commission.

Short history

Participants for construction

Design

The superstructure design by H&R incorporated standard design details for girders and cover plates as was common at the time for mild steel construction. CRB had allowed in the tender the use of high tensile steel to British Standard BS 968:1941. H&R chose to use this steel to reduce weight, so economising on the cost of the foundations. Design and construction of the foundations was undertaken by UTAH.

Included in the CRB tender documents were comprehensive specifications for fabrication in high tensile steel to be read in conjunction with and additional to those of BS 968 -1941. (It was suggested that the Standard may have had erroneous guidelines that were not supported by experience, and that were relied upon for this design). [15]

Neither UTAH nor J&W ever really appreciated the differences that high tensile steel presented in its fabrication, particularly with regards to welding. Therein started the road to failure.

Material supply

J&W, when placing their order for steel from BHP, failed to require additional tests as per the CRB specifications. As a result, BHP only supplied ladle analyses. BHP even stated to J&W at some stage that Izod tests for ductility as per the CRB specifications were useless.

Not all tensile and Izod tests for different plate thicknesses were carried out.

Steel supplied by BHP was generally very close to the maximum tolerances regarding chemical composition. It was later revealed that the chemical composition of plates sometimes exceeded specification even when ladle analysis was within specification. BHP also did not appreciate the welding requirements for high tensile steel and even advised J&W on occasion that even when the chemical composition shown by ladle analysis exceeded specification, the steel was still weldable. Brittleness was of prime importance and under test, some samples did not even show a yield point.

Cover plates and welding

H&R placed the transverse welded ends of cover plates of tension flanges in regions of low stress as permitted by the specifications. Had proper consideration been given during fabrication to weld preparation, the failure of the bridge may not have occurred. The greatest oversight appeared to be the lack of, or insufficient, preheat around the weld area to limit the intensity of residual stresses in the heat affected zone. In these circumstances, brittle fracture was almost guaranteed. In fact, all the cracks occurred in the HAZ of the plate material. (On the other hand, it appears unlikely that preheating could be consistently applied, and that difficulties in application could have resulted in variations in the properties of the steel, including strength loss and stress inconsistencies over the affected or nearby areas – possibly causing similar or other types of failure, such as long term fatigue).

Izod tests for plate and welds were specified. Many Izod tests, particularly for welds, were repeated after an initial failure until a pass was achieved .

The Commission Report stated that "A more callous disregard of the value of acceptance tests it would be difficult to imagine."

Fabrication inspection

During final inspection of girders, under significant pressure of time and very unsatisfactory circumstances, it was likely that the cracks which eventually caused the bridge to fail were missed.

As J&W were responsible for all plate tests, for which they were not particularly convinced were necessary, there was a great deal of bickering between CRB inspectors and J&W shop staff. The Commissioners in their report made the statement that "We hardly know whom to blame the more, J&W for its cavalier attitude or CRB for putting up with it."

Reconstruction

As authority in charge of the bridge at time of failure, MMBW was responsible for the design of the reconstruction method.

MMBW Highways Division carried out this work. The engineering staff were William (Bill) Burren, chief engineer, Highways Division; Stan Long, 2nd in charge, Bruce Day, chief structural engineer; Shandor Mokos and Tom Dobson, senior structural engineers; and Graham Ebbage, assistant structural engineer. All are deceased (2020) bar Ebbage who went on to design bridges in Melbourne, Brisbane and Hong Kong.

It had to be assumed that all girders contained cracks, whether presently detected or not. It was therefore decided to post tension all girders so as to leave no parts in tension.

As each span consisted of four girders, it was decided to construct large heavily reinforced concrete blocks at the ends of each pair of girders. These were to house the anchor blocks of the post tensioning cables. These blocks were held between the girders by heavy high tensile rods passing through each block from girder to girder, averaging about 19 rods each.

The cables were of the Freyssinet type with cast iron wedges fastening each cable into a mating block. Each cable was made up of a number of strands each containing seven high tensile wires. As an example, on span no. 11, 110 feet long, the total prestressing force employed amounted to about 11000 tonnes.

To protect the cables from corrosion, the cables were enclosed in fibre cement ducts and then high pressure grouted. These are what some people now see as pipes under the bridge.

The reconstruction was carried out by John Holland Constructions. Bruce Day was MMBW site engineer for the contract.

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References

  1. "Melway Edition 1". custommaps.net. 1966. Archived from the original on 5 September 2007. Retrieved 17 June 2008.
  2. "Melbourne Casino". Architecture Australia. archmedia.com.au. July–August 1997. Retrieved 17 June 2008.
  3. Kim Dovey, Leonie Sandercock (2004). Fluid City: Transforming Melbourne's Urban Waterfront. UNSW Press. ISBN   9780868406695 . Retrieved 17 June 2008.
  4. 1 2 Kellog Brown and Root (13 November 2006). "King Street Bridge – southern approach and down ramps: Report on possible rehabilitation solutions" (PDF). Retrieved 17 June 2008.[ dead link ] (accessed via FoI by Channel 7 news)
  5. Gardiner, Ashley (17 June 2008). "Melbourne city's Kings Bridge cracking up". Herald Sun. news.com.au. Retrieved 17 June 2008.
  6. 1 2 "Country Roads Board Victoria. Forty-Third Annual Report: for the year ended 30 June 1956". Country Roads Board of Victoria. Melbourne: Victorian Government Library Service. 23 November 1956. p. 22.
  7. 1 2 "Country Roads Board Victoria. Forty-Fourth Annual Report: for the year ended 30 June 1957". Country Roads Board of Victoria. Melbourne: Victorian Government Library Service. 21 November 1957. pp. 21, 48.
  8. 1 2 3 King-street Bridge Act 1957
  9. "Country Roads Board Victoria. Forty-Fifth Annual Report: for the year ended 30 June 1958". Country Roads Board of Victoria. Melbourne: Victorian Government Library Service. 19 November 1958. p. 27.
  10. "Traffic Relief Project: £870,000 Bridge for King Street Favored". The Age . No. 31, 070. Victoria, Australia. 1 December 1954. p. 8. Retrieved 23 April 2017 via National Library of Australia.
  11. "Country Roads Board Victoria. Forty-Seventh Annual Report: for the year ended 30 June 1960". Country Roads Board of Victoria. Melbourne: Victorian Government Library Service. 21 November 1960. p. 45.
  12. 1 2 "Country Roads Board Victoria. Forty-Eighth Annual Report: for the year ended 30 June 1961". Country Roads Board of Victoria. Melbourne: Victorian Government Library Service. 1 December 1961. p. 42.
  13. "In Victoria This Week: That King Street Bridge will be opened officially on April 12". The Canberra Times . Vol. 35, no. 9, 878. Australian Capital Territory. 5 April 1961. p. 2. Retrieved 23 April 2017 via National Library of Australia.
  14. Transport Benefits from New Bridge Truck & Bus Transportation May 1961 page 103
  15. Verbal briefing from Johns & Waygood circa 1967

Further reading

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