Koror–Babeldaob Bridge on:
[Wikipedia]
[Google]
[Amazon]
The Koror–Babeldaob Bridge is a bridge in
Matthias Pilz, Institut für Massivbau und Baustofftechnologie, Universität Leipzig On September 26, 1996, after having reinforcement work done, the bridge suddenly collapsed and shut off fresh water and electricity between the islands. In addition, the collapse killed two people and injured four more. This caused the government to declare a state of emergency. By request of Kuniwo Nakamura, then the country's
By 1990, a physical phenomenon called creep had caused the midline of the bridge to sag 1.2 meters, causing discomfort to drivers and concern for officials. The Palau government commissioned two studies by Louis Berger International and Japan International Co-operation Agency. They both concluded that the bridge was structurally safe as of 1990 though 1m more of creep would occur in the future. Based on the studies, the Palau government decided to counteract the cosmetic damage caused by creep with resurfacing and reinforcement of the bridge.Burgoyne, C. Scantlebury, R. (2006) "Why did Palau Bridge Collapse?" http://www-civ.eng.cam.ac.uk/cjb/papers/p56.pdf
According to British civil engineers Chris Burgoyne and Richard Scantlebury, the reinforcement operation had 4 main components.
#The bridge midspan was modified, changing the originally non-weight-bearing hinged joint to a continuous block of concrete.
#Eight prestress cables were added to straighten the span.
#Eight flat-jacks were added to the center of the structure to add additional prestress, loading the center of the bridge.
#The bridge was resurfaced to smooth out the sagging road.
The most probable progression of the collapse began with a weakening of the Babeldaob side. This caused a shear failure, resulting in all of the weight of the continuous main span coming to rest on the Koror side. This unbalanced moment caused the back span of the Koror side to fail and tipped the bridge into the channel. The new design of the bridge hastened the bridge's collapse, but did not actually cause the fatal weakening of the Babeldoab flange. The cause of collapse remains unknown though it was studied in some detail by professional firms and researchers. The repair and resurfacing operation may have contributed to the bridge failure, but since the lawsuit over the collapse was settled out of court, no final cause has ever been definitively published.
Palau History; page 10
Britannica Online Encyclopedia
Photographs of collapsed original bridge
- Photographs *
- Research of the KB Bridge collapse
- KB bridge suit revived in Palau
The Collapse of the K-B Bridge in 1996 A MSc Dissertation at the Imperial College London
Matthias Pilz report {{DEFAULTSORT:Koror-Babeldaob Bridge Bridges completed in 1977 Bridge disasters in Palau Bridge disasters of unknown cause Bridges completed in 2002 Box girder bridges Buildings and structures in Koror Bridges in Palau Airai 2002 establishments in Palau Japan–Palau relations
Palau
Palau,, officially the Republic of Palau and historically ''Belau'', ''Palaos'' or ''Pelew'', is an island country and microstate in the western Pacific. The nation has approximately 340 islands and connects the western chain of the ...
that connects Koror and Babeldaob
Babeldaob (also Babelthuap) is the largest island in the island nation of the Republic of Palau. It is in the western Caroline Islands, and the second largest island (after Guam) in the Micronesia region of Oceania. Palau's capital, Ngerulmud, i ...
Islands. It is a reinforced concrete, portal frame
Portal frame is a construction technique where vertical supports are connected to horizontal beams or trusses via fixed joints with designed-in moment-resisting capacity. The result is wide spans and open floors.
Portal frame structures can be ...
, cable-stayed bridge
A cable-stayed bridge has one or more ''towers'' (or ''pylons''), from which cables support the bridge deck. A distinctive feature are the cables or stays, which run directly from the tower to the deck, normally forming a fan-like pattern ...
with a total length of 413 m. It was built by the Kajima Corporation
is one of the oldest and largest construction companies in Japan. Founded in 1840, the company has its headquarters in Motoakasaka, Minato, Tokyo. The company is known for its DIB-200 proposal. The company stock is traded on four leading Japa ...
of Japan in 2002, to replace the former bridge built by Socio Construction Co. of Korea
Korea ( ko, 한국, or , ) is a peninsular region in East Asia. Since 1945, it has been divided at or near the 38th parallel, with North Korea (Democratic People's Republic of Korea) comprising its northern half and South Korea (Republic o ...
in 1978 which collapsed in 1996.
The former KB Bridge
The original Koror–Babeldaob Bridge was a balanced cantileverprestressed concrete
Prestressed concrete is a form of concrete used in construction. It is substantially "prestressed" ( compressed) during production, in a manner that strengthens it against tensile forces which will exist when in service. Post-tensioned concreted i ...
box girder bridge
A box girder bridge, or box section bridge, is a bridge in which the main beams comprise girders in the shape of a hollow box. The box girder normally comprises prestressed concrete, structural steel, or a composite of steel and re ...
with a main span
Span may refer to:
Science, technology and engineering
* Span (unit), the width of a human hand
* Span (engineering), a section between two intermediate supports
* Wingspan, the distance between the wingtips of a bird or aircraft
* Sorbitan ester ...
of 240.8 m and total length of 385.6 m (1265 ft). In addition to carrying traffic, it also carried piping and conduits for fresh water and electricity. It was designed by Dyckerhoff & Widmann AG and Alfred A. Yee and Associates. It was constructed by Dyckerhoff & Widmann AG, contractor was Palau based Korean company, Socio Construction Co. It was the world's largest bridge of its type, until its record was broken by the 260 m span of the Gateway Bridge in Brisbane
Brisbane ( ) is the capital and most populous city of the Australian state of Queensland, and the third-most populous city in Australia and Oceania, with a population of approximately 2.6 million. Brisbane lies at the centre of the South ...
, Australia, finished in 1985.
The middle hinge point of the bridge began to noticeably sag in the middle 10 years after its completion. This led to two studies carried out by Louis Berger International and the Japan international Co-operation Agency in 1990. They concluded that the bridge was "safe" as of now (in 100 year increments it will cave in 90 cm) and the large deflections were due to creep and the modulus of elasticity of the concrete in place being lower than anticipated.The Collapse of the K-B Bridge in 1996Matthias Pilz, Institut für Massivbau und Baustofftechnologie, Universität Leipzig On September 26, 1996, after having reinforcement work done, the bridge suddenly collapsed and shut off fresh water and electricity between the islands. In addition, the collapse killed two people and injured four more. This caused the government to declare a state of emergency. By request of Kuniwo Nakamura, then the country's
President
President most commonly refers to:
*President (corporate title)
* President (education), a leader of a college or university
* President (government title)
President may also refer to:
Automobiles
* Nissan President, a 1966–2010 Japanese ...
and foreign minister, Japan provided emergency aid as well as a temporary bridge.
Reason for the collapse
The 18-year-old, Koror-Babeldaob bridge (KB bridge) collapsed abruptly and catastrophically. The failure occurred during benign weather and loading conditions, six years after two independent teams (Louis Berger International and the Japan international Co-operation Agency) of bridge engineers had evaluated the bridge and declared it safe, and less than three months after completion of a strengthening programme to correct a significant midspan sag that was continuing to worsen.
By 1990, a physical phenomenon called creep had caused the midline of the bridge to sag 1.2 meters, causing discomfort to drivers and concern for officials. The Palau government commissioned two studies by Louis Berger International and Japan International Co-operation Agency. They both concluded that the bridge was structurally safe as of 1990 though 1m more of creep would occur in the future. Based on the studies, the Palau government decided to counteract the cosmetic damage caused by creep with resurfacing and reinforcement of the bridge.Burgoyne, C. Scantlebury, R. (2006) "Why did Palau Bridge Collapse?" http://www-civ.eng.cam.ac.uk/cjb/papers/p56.pdf
According to British civil engineers Chris Burgoyne and Richard Scantlebury, the reinforcement operation had 4 main components.
#The bridge midspan was modified, changing the originally non-weight-bearing hinged joint to a continuous block of concrete.
#Eight prestress cables were added to straighten the span.
#Eight flat-jacks were added to the center of the structure to add additional prestress, loading the center of the bridge.
#The bridge was resurfaced to smooth out the sagging road.
The most probable progression of the collapse began with a weakening of the Babeldaob side. This caused a shear failure, resulting in all of the weight of the continuous main span coming to rest on the Koror side. This unbalanced moment caused the back span of the Koror side to fail and tipped the bridge into the channel. The new design of the bridge hastened the bridge's collapse, but did not actually cause the fatal weakening of the Babeldoab flange. The cause of collapse remains unknown though it was studied in some detail by professional firms and researchers. The repair and resurfacing operation may have contributed to the bridge failure, but since the lawsuit over the collapse was settled out of court, no final cause has ever been definitively published.
Japan-Palau Friendship Bridge
As the Palau government lacked sufficient funds to rebuild immediately, a new bridge to provide a steady transportation system was constructed with significant Japanese Grant Aid in ODA. Its construction began in 1997 byKajima Corporation
is one of the oldest and largest construction companies in Japan. Founded in 1840, the company has its headquarters in Motoakasaka, Minato, Tokyo. The company is known for its DIB-200 proposal. The company stock is traded on four leading Japa ...
, a Japanese construction company, and was completed in December, 2001. It was named "Japan-Palau Friendship Bridge" on its opening ceremony on January 11, 2002.Britannica Online Encyclopedia
See also
*List of bridge failures
This is a list of bridge failures.
Before 1800
1800–1899
1900–1949
1950–1999
2000–present
Bridge disasters in fiction
* Harry Potter and the Half-Blood Prince (2005 novel): the fictional Brockdale Bridge, by the Death Eaters ( ...
References
External links
Photographs of collapsed original bridge
- Photographs *
- Research of the KB Bridge collapse
- KB bridge suit revived in Palau
The Collapse of the K-B Bridge in 1996 A MSc Dissertation at the Imperial College London
Matthias Pilz report {{DEFAULTSORT:Koror-Babeldaob Bridge Bridges completed in 1977 Bridge disasters in Palau Bridge disasters of unknown cause Bridges completed in 2002 Box girder bridges Buildings and structures in Koror Bridges in Palau Airai 2002 establishments in Palau Japan–Palau relations