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Coordinates: 51°54′33″N 4°29′12″E / 51.90917°N 4.48667°E / 51.90917; 4.48667
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{{Infobox bridge
[[File:RotterdamMaasNederland.jpg|thumb|right|350px|The Erasmus Bridge]]
| bridge_name = Erasmus Bridge
The '''Erasmusbrug''' ("Erasmus Bridge") is a [[cable stayed bridge]] across the [[Nieuwe Maas]] (English: New Meuse) river, linking the northern and southern halves of the city of [[Rotterdam]], [[Netherlands]].
| native_name = Erasmusbrug
| native_name_lang = nl
| image = Erasmusbrug, September 2019.jpg
| image_size = 266px
| alt =
| caption = The Erasmus Bridge in Rotterdam
| official_name =
| other_name = ''De Zwaan'' (The Swan)
| carries = 2 tramway tracks, 4 traffic lanes, 2 cycle tracks, 2 sidewalks
| crosses = [[Nieuwe Maas]]
| locale = [[Rotterdam]], [[The Netherlands]]
| owner =
| maint =
| id =
| id_type =
| website =
| architect =
| designer = [[Ben van Berkel]]
| engineering =
| winner =
| contracted_designer =
| design =
| material = [[Steel]] and concrete
| length = {{convert|802|m|ft|adj=mid}}<ref name="gannon 2004" />
| width = {{convert|33.8|m|ft|adj=mid}}
| height = {{convert|139|m|ft|adj=mid}}
| mainspan = {{convert|285|m|ft|adj=mid}}
| spans = 4
| pierswater =
| load =
| clearance =
| below = {{convert|12.5|m|ft|adj=mid}}
| life =
| builder =
| fabricator =
| begin =
| complete = 1996
| cost = € 165 million<ref>[http://www.top010.nl/html/erasmusbrug.htm erasmusbrug]</ref> (365 million [[Dutch guilder|Guilder]]s)<ref>[http://www.cvs-congres.nl/cvspdfdocs/cvs10_107.pdf cvspdfdocs]</ref>
| open =
| inaugurated =
| toll =
| traffic =
| preceded =
| followed =
| heritage =
| collapsed =
| closed =
| replaces =
| coordinates = {{coord|51|54|33|N|4|29|12|E|region:NL_type:landmark_source:dewiki|display=title,inline}}
| extra =
| references =
}}


The '''Erasmusbrug''' (English: "Erasmus Bridge") is a combined [[cable-stayed bridge|cable-stayed]] and [[bascule bridge]], construction began in 1986 and was completed in 1996. It crosses the [[Nieuwe Maas]] in the centre of [[Rotterdam]], connecting the north and south parts of this city, second largest in [[Netherlands|the Netherlands]]. The bridge was named in 1992 after [[Desiderius Erasmus]], a prominent Christian [[Renaissance humanist]] also known as Erasmus of Rotterdam. The Erasmus Bridge is Rotterdam's most important landmark and is even part of the city's official logo.<ref name="city guide">{{cite web |title=Erasmus Bridge: Holland's tallest bridge |url=https://www.cityguiderotterdam.com/things-to-do/sights/erasmus-bridge-rotterdam/ |website=cityguiderotterdam.com |access-date=15 May 2020}}</ref>
The Erasmusbrug was designed by [[Ben van Berkel]] and completed in [[1996]]. The 802 metre long bridge has a 139 metre-high [[asymmetry|asymmetrical]] pylon, earning the bridge its [[nickname]] of "The Swan".


== History ==
The southern span of the bridge has a 89 metre long [[bascule bridge]] for ships that cannot pass under the bridge. The bascule bridge is the largest and heaviest in [[West Europe]] and has the largest panel of its type in the world.
The {{convert|802|m|ft|adj=mid|-long}} bridge across the [[Nieuwe Maas|New Meuse]] was designed by [[Ben van Berkel]] and completed in 1996. The cable-stayed bridge section has a single {{convert|139|m|ft|adj=mid|-high}} [[asymmetry|asymmetrical]] pale blue pylon with a prominent horizontal base, earning the bridge its [[nickname]] "The Swan".<ref name="gannon 2004">{{cite book |editor1-last=Gannon |editor1-first=Todd |title=UN Studio/ Erasmus Bridge, Rotterdam, The Netherlands |date=March 2004 |publisher=Princeton Architectural Press |isbn=156898426X |pages=1–176 |edition=Source Books in Architecture (Book 4)}}</ref>


The southernmost span of the bridge has an {{convert|89|m|ft|adj=mid|-long}} [[bascule bridge]] for ships that cannot pass under the bridge. The bascule bridge is the largest and heaviest in [[Western Europe]] and has the largest panel of its type in the world.
The bridge was officially opened by [[Queen Beatrix]] on September 6, 1996, having cost 165 million [[Dutch gulden|Dutch guilders]] (about 75 million [[euro]]) to construct. Shortly after the bridge opened to traffic in October 1996, it was discovered the bridge would swing under particularly strong wind conditions. To reduce the trembling, stronger shock dampers were installed.


After costing more than 165 million Euros to construct, the bridge was officially opened by [[Queen Beatrix]] on September 6, 1996.<ref>{{cite web|title=The Erasmus Bridge; success factors according to those involved in the project|url=http://etcproceedings.org/paper/the-erasmus-bridge-success-factors-according-to-those-involved-in-the-project|publisher=European Transport Conference|access-date=7 November 2012|author=M de Jong, J Annema|year=2010|archive-url=https://web.archive.org/web/20121018100801/http://etcproceedings.org/paper/the-erasmus-bridge-success-factors-according-to-those-involved-in-the-project|archive-date=18 October 2012|url-status=dead}}</ref> Shortly after the bridge opened to traffic in October 1996, it was discovered the bridge would swing under particularly strong wind conditions. To reduce the trembling, stronger shock dampers were installed.<ref name="rain 1998">{{cite journal |last1=Geurts |first1=Chris |last2=Vrouwenvelder |first2=Ton |last3=van Staalduinen |first3=Piet |last4=Reusink |first4=Jaco |title=Numerical Modelling of Rain-Wind-Induced Vibration: Erasmus Bridge, Rotterdam |journal=Structural Engineering International |date=February 1998 |volume=8 |issue=2 |pages=129–135 |doi=10.2749/101686698780489351 |quote=Shortly after completion. the main span cables of the Erasmus Bridge in Rotterdam showed aerodynamic instabilities with large amplitudes. These instabilities were recognised as rain-wind-induced vibrations. Temporary measures were installed on the bridge, and a year later, tuned hydraulic dampers were mounted as a permanent solution.}}</ref>
The bridge featured in the 1998 [[Jackie Chan]] film ''[[Who Am I? (1998 film)|Who Am I?]]''. In 2005 several planes flew underneath the bridge as part of the "[[Red Bull Air Race World Series|Red Bull Air Race]]".


==Design==
In 2005, the bridge served as the backdrop for a performance by [[DJ Tiësto]] titled "Tiësto @ The Bridge, Rotterdam". The performance featured fire fighting ships spraying jets of water into the air in front of the bridge, a fireworks barge launching fireworks beside the bridge, and multi coloured spot/search lights attached to the bridge itself.
[[File:Erasmusbrug (15284241616).jpg|thumb|The bent pylon of the Erasmus Bridge with 16 pairs of front stay cables and 2 sets of back stay cables; back stay cables attached at the minimal height of the third front stay, limiting the cantilever of the upper front cables at the top of the pylon.<ref name="design 1998" />]]


During the preliminary design process, many alternative designs were developed. In 1990, one of the review architects, [[Ben van Berkel]], revealed his own design, which was similar to the one [[Santiago Calatrava]] used for the [[Alamillo Bridge]] in [[Sevilla, Spain]]: a single pylon positioned on one side of the river with a backward lean. Because the initially designed 150-m-high concrete bent pylon was to act as a counterweight for the 284-m span, the pylon had no back stays.<ref name="gannon 2004" /><ref name="design 1998">{{cite journal |last1=Reusink |first1=Jaco |last2=Kuijpers |first2=Martin |title=Designing the Erasmus Bridge, Rotterdam |journal=Structural Engineering International |date=November 1998 |volume=8 |issue=4 |pages=275–277 |doi=10.2749/101686698780488794 |url=https://www.tandfonline.com/doi/abs/10.2749/101686698780488794 |access-date=15 May 2020 |quote=The Erasmus Bridge is the result of an unusual design process in which architects and engineers interacted as equals. In the end this resulted in a bridge that evidences a full commitment to both technical and aesthetic standards.}}</ref>
The bridge was crossed during the prologue and the opening stage of the 2010 Tour de France in germany.

In the subsequent engineering feasibility study, a number of significant design changes were made. Most importantly, live loads, like 60-ton trucks, would introduce tremendous bending forces into the backward leaning pylon; therefore back stays were added to minimize bending forces. The 150-m-high concrete pylon was changed to a 139-m-high steel pylon. The overall appearance of the bridge design remained intact, however, which proved to be the decisive factor for its selection. In November 1991, the city council chose the highly ambitious backward leaning bent pylon shape and made available the necessary additional funds for the asymmetric bridge.<ref name="gannon 2004" /><ref name="design 1998" />

The Erasmus Bridge is the result of an unusual design process in which architects and engineers interacted as equals. In the end this resulted in a bridge that evidences a full commitment to both technical and aesthetic standards.''<ref name="design 1998" />

[[File:Erasmus bridge Rotterdam 2018 2.jpg|thumb|Two box girder spines & transverse sections under the deck of the Erasmus bridge]]
The thin deck profile was not only aesthetically motivated, but also dictated by a number of technical conditions, e.g., there needed to be a clear shipping height in the centre of the span of 12.5m for at least 200m. The deck was thus designed with two box girder spines, 2.25m high by 1.25m wide, where the cables were attached to support a deck with 4 traffic lanes and 2 tram tracks in between the two spines. The two spines were joined every 4.9m by transverse sections, which were cantilevered out 6.7m either side for the pedestrian and cycle ways.<ref name="hewett 2008" />

On the concrete piers, the engineers designed the steel tubes within the concrete piers to support the bridge and the architects designed the concrete form around these inner steel tubes as a sculptural form.<ref name="hewett 2008">{{cite web |last1=Hewett |first1=Christopher J. |title=A Critical Analysis of the Erasmus Bridge |url=https://people.bath.ac.uk/jjo20/conference2/2008/HEWETT%20PAPER%2007.pdf |website=bath.ac.uk |publisher=University of Bath |access-date=17 May 2020 |date=2008 |quote=Abstract: The following paper gives information on the construction and design of the Erasmus Bridge, a critical analysis of the aesthetics and a consideration of the technical loading aspects to British standard codes. |archive-date=17 May 2017 |archive-url=https://web.archive.org/web/20170517112550/http://people.bath.ac.uk/jjo20/conference2/2008/HEWETT%20PAPER%2007.pdf |url-status=dead }}</ref>

==Use in events==

The bridge featured in the 1998 [[Jackie Chan]] film ''[[Who Am I? (1998 film)|Who Am I?]]''. In 2005, several planes flew underneath the bridge as part of the "[[Red Bull Air Race World Series|Red Bull Air Race]]". The bridge is also part of [[The World Port Days]] in Rotterdam.

In 2005, the bridge served as the backdrop for a performance by [[DJ Tiësto]] titled "Tiësto @ The Bridge, Rotterdam". The performance featured fire-fighting ships spraying jets of water into the air in front of the bridge, a fireworks barge launching fireworks beside the bridge, and multi colored spot/search lights attached to the bridge itself.

The bridge was crossed during the prologue and the opening stage of the [[2010 Tour de France]] and during the second stage of the [[2015 Tour de France|2015]] edition of the Tour. The bridge was also crossed during the [[2024 Tour de France Femmes]].

The bridge features during an interval act at the [[Eurovision Song Contest 2021]] in the grand final by Dutch DJ [[Afrojack]] called “Music Binds Us”.

== Gallery ==
<gallery>
File:Erasmusbrug and Noordereiland.jpg|Erasmusbrug: cable-stayed and bascule bridge
File:2008-07 erasmusbrücke hoch.JPG|The bascule section raised, one set backstay in left foreground
File:Erasmusbrug - Detail of Pylon, September 2019.jpg|Detail of pylon from the bridge
File:Rotterdam Erasmusbrug Kop van Zuid 20050928 40201.JPG|[[Rotterdam]] Erasmusbrug from above looking east
File:Rotterdam, de Erasmusbrug vanaf Boompjeskade IMG 1774 2018-03-18 09.51.jpg|Erasmus Bridge from the East
File:Rotterdam, de Erasmusbrug en de Kop van Zuid IMG 0684 2022-03-27 20.24.jpg|Erasmus Bridgebrug and the Kop van Zuid
File:Erasmusbrug seen from Euromast.jpg|Erasmus Bridge at night seen from the [[Euromast]] in 2012
</gallery>

== References ==
{{Reflist}}


==External links==
==External links==
{{commonscat|Erasmus bridge}}
{{Commons category|Erasmus bridge}}
* {{Structurae|id=s0000267|title=Erasmus Bridge}}
* {{Structurae|id=20000267|title=Erasmus Bridge}}
* [http://www.bridge-info.org/bridge/index.php?ID=4 Erasmus bridge on bridge-info.org]
* [http://www.puentemania.com/archives/707 Imágenes y descripción del puente Erasmo en PUENTEMANÍA] (español)
* [https://www.youtube.com/watch?v=QkoSm1B8P_c Erasmusbrug Youtube]
* [https://www.youtube.com/watch?v=WNitGJ1oDR4 2014 New Year Eve Firework from Erasmus Bridge] (Video)

[[File:RotterdamMaasNederland.jpg|thumb|centre|770px|Panorama of the bridge. From left to right in the background are the New Luxor Theatre ([[:nl:Luxor Theater (Rotterdam)#Nieuwe Luxor Theater|nl]]), the regional headquarters of [[KPN]], [[Montevideo (Rotterdam)|Montevideo (highrise)]] and the [[World Port Center]] (highrise)]]


{{Crossings navbox
{{Crossings navbox
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}}
}}


{{Authority control}}
{{coord|51|54|33|N|4|29|12|E|region:NL_type:landmark_source:dewiki|display=title}}


[[Category:Buildings and structures in Rotterdam]]
[[Category:Bridges in the Netherlands]]
[[Category:Bascule bridges]]
[[Category:Bascule bridges]]
[[Category:Cable-stayed bridges]]
[[Category:Road-rail bridges]]
[[Category:Road-rail bridges]]
[[Category:Bridges completed in 1996]]
[[Category:Bridges completed in 1996]]
[[Category:Bridges over the Rhine]]

[[Category:Cable-stayed bridges in the Netherlands]]
[[cs:Erasmusbrug]]
[[Category:Road bridges in the Netherlands]]
[[de:Erasmusbrücke]]
[[Category:Steel bridges in the Netherlands]]
[[eo:Ponto de Erasmo]]
[[Category:Bridges in Rotterdam]]
[[fr:Pont Érasme]]
[[Category:Towers in Rotterdam]]
[[he:גשר ארסמוס]]
[[lb:Erasmusbréck]]
[[nl:Erasmusbrug]]
[[pl:Erasmusbrug]]
[[ru:Мост Эразма]]
[[sk:Erasmusbrug]]
[[tr:Erasmusbrug]]

Revision as of 09:55, 18 August 2024

Erasmus Bridge

Erasmusbrug
The Erasmus Bridge in Rotterdam
Coordinates51°54′33″N 4°29′12″E / 51.90917°N 4.48667°E / 51.90917; 4.48667
Carries2 tramway tracks, 4 traffic lanes, 2 cycle tracks, 2 sidewalks
CrossesNieuwe Maas
LocaleRotterdam, The Netherlands
Other name(s)De Zwaan (The Swan)
Characteristics
MaterialSteel and concrete
Total length802-metre (2,631 ft)[1]
Width33.8-metre (111 ft)
Height139-metre (456 ft)
Longest span285-metre (935 ft)
No. of spans4
Clearance below12.5-metre (41 ft)
History
DesignerBen van Berkel
Construction end1996
Construction cost€ 165 million[2] (365 million Guilders)[3]
Location
Map

The Erasmusbrug (English: "Erasmus Bridge") is a combined cable-stayed and bascule bridge, construction began in 1986 and was completed in 1996. It crosses the Nieuwe Maas in the centre of Rotterdam, connecting the north and south parts of this city, second largest in the Netherlands. The bridge was named in 1992 after Desiderius Erasmus, a prominent Christian Renaissance humanist also known as Erasmus of Rotterdam. The Erasmus Bridge is Rotterdam's most important landmark and is even part of the city's official logo.[4]

History

The 802-metre-long (2,631 ft) bridge across the New Meuse was designed by Ben van Berkel and completed in 1996. The cable-stayed bridge section has a single 139-metre-high (456 ft) asymmetrical pale blue pylon with a prominent horizontal base, earning the bridge its nickname "The Swan".[1]

The southernmost span of the bridge has an 89-metre-long (292 ft) bascule bridge for ships that cannot pass under the bridge. The bascule bridge is the largest and heaviest in Western Europe and has the largest panel of its type in the world.

After costing more than 165 million Euros to construct, the bridge was officially opened by Queen Beatrix on September 6, 1996.[5] Shortly after the bridge opened to traffic in October 1996, it was discovered the bridge would swing under particularly strong wind conditions. To reduce the trembling, stronger shock dampers were installed.[6]

Design

The bent pylon of the Erasmus Bridge with 16 pairs of front stay cables and 2 sets of back stay cables; back stay cables attached at the minimal height of the third front stay, limiting the cantilever of the upper front cables at the top of the pylon.[7]

During the preliminary design process, many alternative designs were developed. In 1990, one of the review architects, Ben van Berkel, revealed his own design, which was similar to the one Santiago Calatrava used for the Alamillo Bridge in Sevilla, Spain: a single pylon positioned on one side of the river with a backward lean. Because the initially designed 150-m-high concrete bent pylon was to act as a counterweight for the 284-m span, the pylon had no back stays.[1][7]

In the subsequent engineering feasibility study, a number of significant design changes were made. Most importantly, live loads, like 60-ton trucks, would introduce tremendous bending forces into the backward leaning pylon; therefore back stays were added to minimize bending forces. The 150-m-high concrete pylon was changed to a 139-m-high steel pylon. The overall appearance of the bridge design remained intact, however, which proved to be the decisive factor for its selection. In November 1991, the city council chose the highly ambitious backward leaning bent pylon shape and made available the necessary additional funds for the asymmetric bridge.[1][7]

The Erasmus Bridge is the result of an unusual design process in which architects and engineers interacted as equals. In the end this resulted in a bridge that evidences a full commitment to both technical and aesthetic standards.[7]

Two box girder spines & transverse sections under the deck of the Erasmus bridge

The thin deck profile was not only aesthetically motivated, but also dictated by a number of technical conditions, e.g., there needed to be a clear shipping height in the centre of the span of 12.5m for at least 200m. The deck was thus designed with two box girder spines, 2.25m high by 1.25m wide, where the cables were attached to support a deck with 4 traffic lanes and 2 tram tracks in between the two spines. The two spines were joined every 4.9m by transverse sections, which were cantilevered out 6.7m either side for the pedestrian and cycle ways.[8]

On the concrete piers, the engineers designed the steel tubes within the concrete piers to support the bridge and the architects designed the concrete form around these inner steel tubes as a sculptural form.[8]

Use in events

The bridge featured in the 1998 Jackie Chan film Who Am I?. In 2005, several planes flew underneath the bridge as part of the "Red Bull Air Race". The bridge is also part of The World Port Days in Rotterdam.

In 2005, the bridge served as the backdrop for a performance by DJ Tiësto titled "Tiësto @ The Bridge, Rotterdam". The performance featured fire-fighting ships spraying jets of water into the air in front of the bridge, a fireworks barge launching fireworks beside the bridge, and multi colored spot/search lights attached to the bridge itself.

The bridge was crossed during the prologue and the opening stage of the 2010 Tour de France and during the second stage of the 2015 edition of the Tour. The bridge was also crossed during the 2024 Tour de France Femmes.

The bridge features during an interval act at the Eurovision Song Contest 2021 in the grand final by Dutch DJ Afrojack called “Music Binds Us”.

  • Erasmusbrug: cable-stayed and bascule bridge
    Erasmusbrug: cable-stayed and bascule bridge
  • The bascule section raised, one set backstay in left foreground
    The bascule section raised, one set backstay in left foreground
  • Detail of pylon from the bridge
    Detail of pylon from the bridge
  • Rotterdam Erasmusbrug from above looking east
    Rotterdam Erasmusbrug from above looking east
  • Erasmus Bridge from the East
    Erasmus Bridge from the East
  • Erasmus Bridgebrug and the Kop van Zuid
    Erasmus Bridgebrug and the Kop van Zuid
  • Erasmus Bridge at night seen from the Euromast in 2012
    Erasmus Bridge at night seen from the Euromast in 2012

References

  1. ^ a b c d Gannon, Todd, ed. (March 2004). UN Studio/ Erasmus Bridge, Rotterdam, The Netherlands (Source Books in Architecture (Book 4) ed.). Princeton Architectural Press. pp. 1–176. ISBN 156898426X.
  2. ^ erasmusbrug
  3. ^ cvspdfdocs
  4. ^ "Erasmus Bridge: Holland's tallest bridge". cityguiderotterdam.com. Retrieved 15 May 2020.
  5. ^ M de Jong, J Annema (2010). "The Erasmus Bridge; success factors according to those involved in the project". European Transport Conference. Archived from the original on 18 October 2012. Retrieved 7 November 2012.
  6. ^ Geurts, Chris; Vrouwenvelder, Ton; van Staalduinen, Piet; Reusink, Jaco (February 1998). "Numerical Modelling of Rain-Wind-Induced Vibration: Erasmus Bridge, Rotterdam". Structural Engineering International. 8 (2): 129–135. doi:10.2749/101686698780489351. Shortly after completion. the main span cables of the Erasmus Bridge in Rotterdam showed aerodynamic instabilities with large amplitudes. These instabilities were recognised as rain-wind-induced vibrations. Temporary measures were installed on the bridge, and a year later, tuned hydraulic dampers were mounted as a permanent solution.
  7. ^ a b c d Reusink, Jaco; Kuijpers, Martin (November 1998). "Designing the Erasmus Bridge, Rotterdam". Structural Engineering International. 8 (4): 275–277. doi:10.2749/101686698780488794. Retrieved 15 May 2020. The Erasmus Bridge is the result of an unusual design process in which architects and engineers interacted as equals. In the end this resulted in a bridge that evidences a full commitment to both technical and aesthetic standards.
  8. ^ a b Hewett, Christopher J. (2008). "A Critical Analysis of the Erasmus Bridge" (PDF). bath.ac.uk. University of Bath. Archived from the original (PDF) on 17 May 2017. Retrieved 17 May 2020. Abstract: The following paper gives information on the construction and design of the Erasmus Bridge, a critical analysis of the aesthetics and a consideration of the technical loading aspects to British standard codes.
Wikimedia Commons has media related to Erasmus bridge.
Panorama of the bridge. From left to right in the background are the New Luxor Theatre (nl), the regional headquarters of KPN, Montevideo (highrise) and the World Port Center (highrise)
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