Sunniberg Bridge
{{Short description|Extradosed road bridge in the canton of Grisons, Switzerland}}
{{Infobox bridge
|bridge_name = Sunniberg Bridge
|native_name = Sunnibergbrücke
|image = Sunnibergbruecke nordwest.jpg
|caption = View from north abutment looking south east
|official_name = Sunniberg Bridge
|carries = Motor vehicles
|crosses = Landquart River
|locale = Klosters, Switzerland
|maint =
|id =
|designer = Christian Menn
|architect = Andrea Deplazes
|design = curved multi-span extradosed bridge
|length = {{convert|526|m|abbr=on}}
|width = {{convert|12.378|m|abbr=on}}
|mainspan = {{convert|140.00|m|abbr=on}}
|number_spans = 5
|clearance =
|below = 50 m to 60 m above valley floor
|lanes = 2
|builder = Batigroup AG and Vetsch AG
|complete = Fall 1998
|cost = Swiss Franc 17 million
|open = 9 December 2005
|closed =
|toll =
|map_cue =
|map_image =
|map_text =
|map_width =
|coordinates = {{coord|46.885392|9.856625|format=dms|type:landmark|display=inline,title}}
|lat =
|long =
}}
The Sunniberg Bridge is a curved multi-span extradosed road bridge with low outward-flaring pylons above the roadway edges, designed by the renowned Swiss engineer Christian Menn and completed 1998. It carries the Klosters bypass road 28 across the Landquart River near the village of Klosters in the canton of Grisons in eastern Switzerland. It is notable because of its innovative design and aesthetically pleasing appearance sensitive to its surroundings.
Design
The bridge was designed by Christian Menn (conceptual design) together with Dialma Jakob Baenziger (final design) as a challenge of integrating the structural form of a curved multi-span extradosed bridge into the larger rural Alpine landscape, given the prominent location of the bridge in the Landquart valley, "but with a certain elegance".{{cite journal |last1=Figi |first1=Heinrich |last2=Menn |first2=Christian |last3=Bänziger |first3=Dialma Jakob |last4=Bacchetta |first4=Aldo |title=Sunniberg Bridge, Klosters, Switzerland |url=https://www.tandfonline.com/doi/abs/10.2749/101686697780495300 |journal=Structural Engineering International |format=published online: 23 Mar 2018 |doi=10.2749/101686697780495300 |date=1997|volume=7 |issue=1 |pages=6–8 |url-access=subscription }}
File:Sunnibergbrücke 03.JPG line runs across the top of the picture.]]
The Klosters bypass highway crosses the Landquart River valley on a {{convert|526|m|abbr=on}} long curving road bridge (horizontal radius of curvature about 500m) at a height of between 50 and 60m above the valley floor. Four slender H-shape piers rise up from the valley floor (8.80m × 4.25m at the base), like the tall trees nearby. Proceeding upwards, the arms of the tall piers/pylons flare out to subtend and sustain the {{convert|12.4|m|abbr=on}} wide curved and banked deck, nestling the roadway in their arms.{{cite journal |last1=Honigmann |first1=Chelsea |last2=Billington |first2=David P. |title=Conceptual Design for the Sunniberg Bridge |journal=Journal of Bridge Engineering |date=May 2003 |volume=8 |issue=3 |pages=122–130 |doi=10.1061/(ASCE)1084-0702(2003)8:3(122) }}
The bridge received the Outstanding Structure Award in 2001 for being "a delicate expression of structural art responding to a sensitive landscape.".{{cite web |title=2001 Outstanding Structure Award: Sunniberg Bridge, Klosters, Switzerland |url=https://www.iabse.org/IABSE/association/Award_files/Outstanding_Structure_Award/Sunniberg_Bridge__Klosters__Switzerland.aspx |website=iabse.org |accessdate=22 May 2020 |date=15 September 2001}}
Construction
Construction started Spring 1996, by Batigroup AG and Vetsch AG, starting at the north end with pier P1, the pier closest to the Landquart to Klosters road. Once the piers were completed, the deck were erected using the balanced cantilever method. The bridge was completed ahead of schedule in Fall 1998.[http://en.structurae.de/structures/data/index.cfm?ID=s0000072 Structurae database: Sunniberg Bridge]{{cite web |title=Sunnibergbridge completed |url=https://www.gr.ch/DE/institutionen/verwaltung/bvfd/tba/dokumentation/Dokumentation%20TBAinfos%20PDF/tba-info-33e_sunnibergbridge.pdf |website=Tiefbauamt Graubünden Info |publisher=Ufficio tecnico Uffizi da construcziun bassa Nr. 33e |accessdate=22 May 2020 |date=November 1998}}{{cite conference |last1=Drinkwater |first1=Luke J |title=Analysis of the Sunniberg Bridge |conference=Bridge Engineering 2 Conference |date=27 April 2007 |url=http://www.bath.ac.uk/ace/uploads/StudentProjects/Bridgeconference2007/conference/mainpage/Drinkwater_Sunniberg.pdf |archive-url=https://web.archive.org/web/20110909010538/http://www.bath.ac.uk/ace/uploads/StudentProjects/Bridgeconference2007/conference/mainpage/Drinkwater_Sunniberg.pdf |archive-date=9 September 2011 |s2cid=53985763 }}
File: Sunnibergbruecke nord.jpg and Davos (far left), Sunniberg Bridge and pylons P4, P3 (right)]]
The completed bridge was not opened for traffic because the Gotschna Tunnel, to which the south end of the bridge was connected, was still under construction. Instead, it was used only to access the excavation sites for the tunnel in the interim, until 2005 when the Klosters bypass, including both the bridge and the tunnel, was opened for traffic in a ceremony with Prince Charles, a frequent visitor to Klosters.{{cite web |title=Prince opens prize-winning bridge: Opening of the Sunniberg bridge from ETH emeritus professor Christian Menn |url=http://archiv.ethlife.ethz.ch/e/articles/news/sunnibergbruecke.html |website=ETH life international |accessdate=22 May 2020 |date=December 2005 |quote=Klosters' most prominent guest, Prince Charles, accompanied by Federal Councillor Moritz Leuenberger and the government of the Grisons officially opened the new bypass road and therewith Menn's bridge.}}{{cite journal|title=The Impact of the Sunniberg Bridge on Structural Engineering, Switzerland |
journal =Structural Engineering International | volume=25|issue=4|page=381 |date=2015|author1=Vogel, T.H. |author2=Schellenberg, K. | doi=10.2749/101686615X14355644770811 | s2cid=114012813 |
url=https://www.tandfonline.com/doi/abs/10.2749/101686615X14355644770811|url-access=subscription }}
Critique
In the 2009 International Award of Merit to engineer/designer Christian Menn, his Sunniberg Bridge, along with his Ganter Bridge, his Leonard P. Zakim Bunker Hill Memorial Bridge as well as others, were singled out as being renown "worldwide for their structural beauty, economic efficiency, technical innovation, and for simply being structural engineering oeuvres of art."{{cite web |title=2009 International Award of Merit: Christian Menn, Switzerland |url=https://www.iabse.org/IABSE/association/Award_files/International_Award_of_Merit_in_Structural_Engineering/Christian_Menn__Switzerland.aspx |website=iabse.org |accessdate=22 May 2020 |date=September 2009 |quote=Menn’s numerous bridge structures, such as the Ganter Bridge and the Sunniberg Bridge in Switzerland, or the Leonard P. Zakim Bunker Hill Bridge in Boston, USA, as well as many others, are renowned worldwide for their structural beauty, economic efficiency, technical innovation, and for simply being structural engineering oeuvres of art.}}
From a 2015 Structural Engineering International retrospective, "The Impact of the Sunniberg Bridge on Structural Engineering, Switzerland", the following points can be made about the impact of the Sunniberg Bridge:
- It was a favorite among structural engineers, ranked no. 5 among most favorite structure published from 1991 to 2000.
- It helped establish "extradosed bridge" as a new and distinct bridge type.
- It is a curved multi-span extradosed road bridge, which is uncommon.
- It is an integral bridge, i.e., it has neither joints nor bearings at their ends, but the girder is rigidly connected to the abutments; thus it is easier to maintain.
- It shows that concrete can be used to build slender structures with elegance.
{{blockquote|The Sunniberg Bridge has become an icon of Swiss engineering, standing for high performance, quality and elegance, perception of structural engineering, an object inspiring admiration,... }}
Gallery
The four piers/pylons of Sunniberg Bridge are numbered from north to south as P1 to P4.
File:Sunnibergbruecke unten.jpg|From river level looking north: pylons P1 and P2 (right)
File:Sunnibergbruecke sued.jpg|From south abutment looking north: pylons P2, P3, and P4 (right)
File:Sunnibergbrücke 01.JPG|From south abutment looking north: pylons P1 (left), P2, P3, and P4 (closest)
File:Sunnibergbrücke 02.JPG|From south abutment looking north: P4 cable anchors on roadway east edge
File:Sunnibergbruecke nordwest.jpg|From north abutment looking south east: pylons P1 (closest), P2, P3, and P4
File:Klosters-Sunnibergbruecke-view from the raetische Bahn-01.jpg|From train east of the north abutment looking south: pylons P2 and P1 (center)
File:Sunnibergbrücke über die Landquart, Klosters-Serneus GR 20190830-jag9889.jpg|From valley level looking west: pylons P3 (left), P2, and P1
File:Sunnibergbrücke Huefte.jpg|From valley level looking east: pylon P3
See also
- Landquart–Davos Platz railway, regional train line that passes above the north abutment of the Sunniberg Bridge
- Ganter Bridge, designed by Christian Menn and completed 1980 in Switzerland
- Leonard P. Zakim Bunker Hill Memorial Bridge, designed by Christian Menn and completed 2003 in Boston, USA
References
{{Reflist}}