Schlaich Bergermann partner

sbp
legal form	GmbH
founding	1980
Seat	Stuttgart , Germany
Number of employees	about 150
sales	15.3 million EUR ; (FY 2015)
Branch	Construction
Website	www.sbp.de

Killesberg Tower

Schlaich Bergermann partners (own spelling s chlaich b ergermann p artner , sbp ) are Consulting Engineers, headquartered in Stuttgart and offices in Berlin , New York , São Paulo , Shanghai and Paris .

history

The office was founded in 1980 by Jörg Schlaich and Rudolf Bergermann . Both were engineers in the Stuttgart engineering office Leonhardt und Andrä in the 1960s and 1970s , which in 1972 planned the supporting structure for the tent roof construction of the Munich Olympic Stadium .

Knut Göppert, Andreas Keil, Sven Plieninger and Mike Schlaich have been running the office since 2002 . In 2015 Knut Stockhusen also became a partner and managing director.

plant

The main focus of the office is the conception, planning and monitoring of construction work for sub-areas of structural engineering, such as membrane, glass, roof and facade constructions, bridge and cable constructions, towers, high-rise buildings and high-rise buildings, halls, as well as testing activities for structural safety and structural engineering .

The office also has its own area for the development of technologies for solar power generation , sbp sonne, and has consulting engineers for renewable energies.

In 1982 the solar department of the office developed and built a prototype for a solar chimney power plant in Manzanares near Ciudad Real , Spain. The Dish-Stirling systems for decentralized energy generation have also been further developed since the early 1980s . Since 2000 the office has participated in the planning and construction of channel power plants . This technology and the structures developed by sbp are used in numerous power plants around the world.

The Vidyasagar Setu , commonly known as the Second Hoogly Bridge, in Calcutta, India, has a special place in the history of the office . Local requirements for the construction of the bridge were the use of local, non-weldable steel, which was built by local workers with a lot of manual work. Huge cross-sections, including the pylon heads, were assembled from thick sheet metal with millions of rivets .

For the football World Cup in Germany in 2006, a mobile roof construction that can be closed over the field was required to convert the Commerzbank-Arena Frankfurt am Main into a new large arena. In 2004, a new roofing with an opening on the longitudinal axis was completed for the Olympic Stadium in Berlin , as well as a new roof for the newly converted Rhein-Energie-Stadion in Cologne.

Realized drafts

Vidyasagar Setu (Second Hooghly Bridge) in Calcutta

Vidyasagar Setu or Second Hooghly Bridge, Calcutta , India , construction period 1979–1992
Exhibition tower in Leipzig , 1995
Knick-Ei von Halstenbek , 1995, collapsed twice, demolished before completion
Hörnbrücke in Kiel , 1997
Ting Kau Bridge in Hong Kong , 1998
Buckel Bridge in Duisburg , 1999
Schlaichturm in Weil am Rhein , 1999
Killesberg tower in Stuttgart , 2001
Humboldthafen Bridge in Berlin , 2002
Abuja National Stadium , 2003
Cantilever roof with membrane and glass roofing Olympiastadion Berlin , 2004
Roof of the Rheinenergiestadion in Cologne , 2004
Membrane roof with convertible membrane inner roof Commerzbank-Arena in Frankfurt am Main , 2005
Central bus station Hamburg , 2006, honored with the Outstanding Structure Award from IABSE
Structural engineering for the roof of the Nelson Mandela Bay Stadium in Port Elizabeth , South Africa , May 2009
Grimberger Sichel in Gelsenkirchen , 2009, honored with the European Steel Bridges Award 2010
Roof construction of the renovation of Soccer City in Johannesburg , South Africa , 2009
Roof construction of the Narodowy Stadium in Warsaw , 2009–2012
Harp Bridge over Langen See, Boeblingen, Flugfeld district , 2016
Railway bridge over the Aller in Verden (Lower Saxony), 2013–2016
Schönbuchturm near Herrenberg , 2018
Trumpf footbridge in Ditzingen , 2018
Kampmann Bridge in Essen , 2019

Newer buildings
Harp Bridge, Boeblingen
Schönbuch Tower, Herrenberg
Trumpf-Steg, Ditzingen

Structural elements and materials used

Grid shell

Light, transparent canopies put as little strain on the building fabric as possible. The traditional kitchen strainer was the inspiration for the mesh bowl: its square mesh network can be adapted to any surface geometry by making the meshes more familiar. Combined with a diagonal rope net, the net becomes the ideal shell. Covered with glass panes, a light, transparent roof is created. New geometric developments and form-finding methods, right up to fully automatic, self-developed workflows using geometric and static optimization methods, enrich the design possibilities.

Cable net facade

For the facade with almost seamless transparency, parallel horizontal and vertical rope sets are stretched between the two side structures and between the roof trusses and the floor of the Kempinski Hotel at Munich Airport and form a flat rope network. The cable net facade is comparable to a tennis racket . Depending on the magnitude of the bias and arrangement of the cable hosts many variations of this design principle are possible and have also realized: roofing of the Roman baths Badenweiler, CYTS Beijing, Berlin Central Station , Foreign Office, Berlin .

Ring rope roof

The ring rope roof is based on the idea of the spoked wheel, but is also designed for vertical load transfer compared to the spoked wheel, which is primarily stressable in its plane. Rope constructions can be used in different configurations and are suitable for column-free roofing of buildings, stadiums, arenas and areas of any size. In the first basic configuration, the two inner pull rings spread by air supports are connected to the outer pressure ring via radial spokes. The second basic configuration works with two external pressure rings and only one internal tension ring connected via the radial spokes. Textile membranes are often tensioned between the radial cables. The Mercedes-Benz Arena in Stuttgart is one of the first modern ring rope roofs . Further examples have been realized in Kuala Lumpur, Frankfurt / Main, Warsaw, Bucharest, Cape Town, Durban, Rio de Janeiro, among others.

Membrane roofs

Most of the ring rope roofs are covered with textile membranes. Textiles enable light, transparent roofs and facades that fascinate with their diverse and unusual shapes. Due to their low weight and foldability, textiles are also ideal for changeable structures. One of the first permanent, movable membrane roofs was the roof over the Zaragoza bullring, which can be opened and closed in a few minutes like a flower. A similar principle was also used for the roofing of the Commerzbank Arena in Frankfurt, the National Stadium in Warsaw and the BC Place Stadium in Vancouver. Only building with air is even easier: the pneumatic cushions of the arenas Nîmes and Madrid transform them seasonally within a few days or depending on the weather in a few minutes.

Circular ring carrier

At the time of its completion, the curved bridge in Kelheim over the Main-Danube Canal caused a sensation: It was the first bridge that was only suspended on one side. In the meantime, the engineers at Schlaich Bergermann Partner have varied the principle of the circular ring girder several times, as shown by the pedestrian bridges in Bochum over Gahlensche Straße, in Gelsenkirchen or “the balcony to the sea” in Sassnitz. At ZOB Hamburg, the principle was transferred to a roof structure.

Cast steel

The renaissance of cast steel in construction began with the construction of the cable net roofs for the Olympics in Munich. The cast steel allows the production of geometrically complex pipe nodes, an optimal adaptation to the flow of forces with simultaneous economic efficiency. Nowadays, sweeping, rounded cast steel knots are used on road bridges (Nesenbachtalbrücke, Stuttgart) and railway bridges ( Humboldthafenbrücke Berlin ) in building construction (Hall 13, Hanover Fair) or the rope knots on the ring rope roofs and facades. The various possibilities of shapes and materials from GS20 to stainless steel investment allow a wide range of applications. Due to the excellent weldability, economical combinations of freely formed, complex cast components can be combined with regular steels and sheets. The advantages of both types of steel can thus be optimally used.

Buildings in Stuttgart

As a lecturer at the University of Stuttgart, Jörg Schlaich's concern was to overcome "the image of the technocrat that adheres to civil engineers". To this end, he opened up the creative world of construction and design to his students based on profound theoretical knowledge Generations of students at a new »Stuttgart engineering school«. "

In addition to many projects in Germany and around the world, the Schlaich Bergermann Partner office also implemented a large number of projects in Stuttgart, including around 20 bridges and pedestrian walkways as well as around 20 buildings, towers and other structures. This includes “a whole series of landmarks ” that were created for the International Horticultural Exhibition in 1993 , but also the Mercedes-Benz Arena with its “idiosyncratic curved, floating” roof and the Killesberg Tower , both buildings that have become the city's landmarks.

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year	Art	Building / collaboration / literature
1970	tower	Telecommunications tower on the woman's head Collaboration: Leonhardt and Andrä Literature: # Bögle 2004 , pages 59, 63-64, #Holgate 1997 , page 36, #Schlaich 1999 , pages 489-490, structurae48.763611 9.205833
1977	Pedestrian walkway	Green Bridge Cooperation: Planning group Luz , Bächer , Winkler Literature: # Bögle 2004 , pages 232, 234, #Holgate 1997 , pages 204–205, #Luz, Hans 1992 , pages 124–125, #Luz, Hans 2012 , page 39 48.788941 9.189845
1977	Pedestrian walkway	Heinrich-Baumann-Steg collaboration: planning group Luz , Bächer , Winkler Literature: # Bögle 2004 , page 232, #Holgate 1997 , page 233, #Schlaich 1999 , page 176, structurae48.792211 9.196672
1977	Pedestrian walkway	Pedestrian bridge Rosensteinpark between the Middle and Lower Schlossgarten Cooperation: Planning group Luz , Bächer , Winkler Literature: # Bögle 2004 , pages 232, 254, #Holgate 1997 , pages 199–201, #Luz, Hans 1992 , pages 124–125, #Luz, Hans 2012 , page 39, #Schlaich 1999 , page 179-180, structurae48.789297 9.190599
1977	Pedestrian walkway	Pedestrian bridge Rosensteinpark between Cannstatter Straße and Rosensteinpark Cooperation: Planning group Luz , Bächer , Winkler Literature: # Bögle 2004 , pages 166, 232, 234, #Holgate 1997 , pages 202–203, #Schlaich 1999 , pages 179–180, structurae48.799259 9.208364
1982	bus stop	Schlossplatz bus stop at the Alte Kanzlei Collaboration: Behnisch + Partner Literature: # Bögle 2004 , page 177, #Holgate 1997 , page 252 48.7778 9.178825
1988	building	Visus Institute (= Visualization Institute) of the University of Stuttgart , formerly: Hysolar Institute, Allmandring 19 Collaboration: Behnisch + Partner Literature: # Bögle 2004 , page 53 48.743395 9.096663
1989	top, roof	Social Office of the Federal Post Office, Maybachstr. 56 Collaboration: Prof. Ostertag + Vornholdt Literature: # Bögle 2004 , page 87, list 201348.812015 9.178299
1989	Pedestrian walkway	Pedestrian Bridge Cookinghof Collaboration: Luz und Partner Literature: # Bögle 2004 , page 232, #Holgate 1997 , page 220–221, #Schlaich 1999 , page 186–187, structurae48.798614 9.1689
1989	Pedestrian walkway	Max-Eyth-Steg Collaboration: Brigitte Schlaich-Peterhans Literature: # Bögle 2004 , pages 232, 250-253, 305, #Holgate 1997 , pages 208-213, #Schlaich 1999 , pages 181-183, structurae48.834249 9.208838
1989	Pedestrian walkway	Wulle-Steg over Willy-Brandt-Straße Collaboration: Kammerer Belz Kucher and Partner Literature: # Bögle 2004 , pages 232, 236, #Schlaich 1999 , pages 184-185, #Holgate 1997 , pages 218-219, list 201348.783967 9.188588
1991	Pedestrian walkway	Pedestrian bridge Karl-Benz-Platz in Untertürkheim Collaboration: Peter and Lochner Literature: # Bögle 2004 , page 232, #Holgate 1997 , page 234, structurae48.779359 9.249756
1992	Pedestrian walkway	Cardiffer Steg over Stresemannstraße Cooperation: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: #Baus 1993 , page 70, #Keil 1993 , page 52, #Luz, Hans 1993.1 , page 16, #Luz, Hans 2012 , page 77, # Schlaich 1993 , page 23 48.805685 9.175186
1992	Pedestrian walkway	St.-Helens-Steg over Stresemannstraße Cooperation: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: #Baus 1993 , page 70, #Keil 1993 , page 52, #Luz, Hans 1993.1 , page 16, #Luz, Hans 2012 , Page 77, #Schlaich 1993 , page 23 48.804383 9.174556
1992	Pedestrian walkway	Lodzer Steg at Löwentor Collaboration: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: # Bögle 2004 , page 232, #Baus 1993 , page 70, 77–78, 80, #Holgate 1997 , pages 226–227, 235, #Luz, Hans 1992 , pages 144-145, #Luz, Hans 2012 , page 61, #Schlaich 1993 , page 25, #Keil 1993 , pages 49-50, #Luz, Hans 1993.1 , pages 17-18, #Schlaich 1999 , page 188 -189, structurae48.806959 9.189256
1992	Pedestrian walkway	Bombaystege over Heilbronner Strasse, extension of Brünner Steg Collaboration: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: # Bögle 2004 , page 20, 21, 232, 236, #Baus 1993 , page 70, 74, #Holgate 1997 , page 224 -225, #Keil 1993 , pages 50-51, #Luz, Hans 1993.1 , page 15, #Schlaich 1993 , pages 21-23, #Schlaich 1999 , pages 190-191, structurae48.804317 9.183507
1992	Pedestrian walkway	Brünner Steg, pedestrian bridge Nordbahnhof, extension of the Bombaystege Cooperation: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: # Bögle 2004 , pages 20, 21, 232, 236, #Baus 1993 , pages 70–72, #Holgate 1997 , pages 222– 223, #Keil 1993 , pages 50-51, #Luz, Hans 1993.1 , pages 14-15, #Schlaich 1993 , pages 21-23, #Schlaich 1999 , pages 190-191, list 201348.804928 9.184827
1992	Pedestrian walkway	Bombaystege over Friedrich-Ebert-Strasse, extension of the Bombaystege over Heilbronner Strasse Cooperation: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: #Luz, Hans 1993.1 , page 16, #Schlaich 1999 , page 190–191 48.804334 9.183003
1992	bus stop	Löwentorbrücke tram stop? (Heilbronner Straße tram stop) Collaboration: Luz planning group , Lohrer, Egenhofer, Schlaich Literature: # Bögle 2004 , page 177 48.803483 9.183427
1992	Pedestrian walkway	Samarastege, section over Pragstrasse ( Pragsattel I pedestrian bridge ) Collaboration: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: # Bögle 2004 , pages 232, 239, 305, #Baus 1993 , pages 70, 79, 80, #Holgate 1997 , page 235-236, #Keil 1993 , pages 50-52, #Luz, Hans 1993.1 , page 18, #Schlaich 1993 , pages 232-25, #Schlaich 1999 , pages 192-193 48.808672 9.185942
1992	Pedestrian walkway	Samarastege, section over Heilbronner Straße ( Pragsattel II pedestrian bridge ) Collaboration: Planning group Luz , Lohrer, Egenhofer, Schlaich Literature: # Bögle 2004 , pages 232, 237-238, #Baus 1993 , pages 70, 78, 80, #Holgate 1997 , Pages 235, 237, #Keil 1993 , pages 50-52, #Luz, Hans 1993.1 , page 17, #Schlaich 1993 , pages 23-25, #Schlaich 1999 , pages 192-193, structurae , list 201348.808144 9.185036
1993	top, roof	Katharinenhospital , Kriegsbergstraße 60 = House E Collaboration: Heinle, Wischer und Partner Literature: # Bögle 2004 , page 165, #Holgate 1997 , page 253, #Schlaich 1999 , page 385 48.783437 9.173814
1993	building	Katharinenhospital , Kriegsbergstraße 60 = House E Collaboration: Heinle, Wischer und Partner Literature: # Bögle 2004 , page 53, #Holgate 1997 , page 253, #Schlaich 1999 , page 384–385 48.783437 9.173814
1993	swimming pool	Mineralbad Bad Cannstatt Collaboration: Beck-Erlang und Partner Literature: # Bögle 2004 , pages 113, 299, #Schlaich 1999 , pages 386–387, #Holgate 1997 , page 116, structurae , list 201348.8092 9.222865
1993	building	Institute for Bioprocess Engineering of the University of Stuttgart Cooperation: Ackermann + Partner Literature: # Bögle 2004 , page 53 48.74206 9.096679
1993	Stadion	Mercedes-Benz Arena , 1993–2008: Gottlieb Daimler Stadium Cooperation: Weidleplan Consulting, Siegel + Partner Literature: # Bögle 2004 , pages 151, 152, 156–159, #Holgate 1997 , pages 140–143, #Schlaich 1999 , Pages 375–378, structurae48.792222 9.231944
1995	building	Airport fire station cooperation: Kohlmeer + Bechler Literature: # Bögle 2004 , page 53 48.692462 9.21705
1997	top, roof	Württembergische Versicherung, Senefelderstraße 38 Collaboration: Three architects Literature: # Bögle 2004 , page 53 48.773973 9.162403
1998	bus stop	Waldau tram stop Collaboration: Unold graduate engineers and architects Literature: # Bögle 2004 , page 131, list 201348.751502 9.188829
1999	bridge	Nesenbachtalbrücke in Stuttgart-Vaihingen Cooperation: Luz und Partner, Hans Dieter Bohnet Literature: # Bögle 2004 , page 187, #Holgate 1997 , page 190, #Schlaich 1999 , pages 198–199, 212–216, 230, structurae48.733642 9.120989
2001	building	Bosch-Areal Collaboration: Prof. Ostertag + Vornholdt Literature: # Bögle 2004 , page 113, structurae48.779846 9.167307
2001	tower	Killesbergturm Collaboration: Luz und Partner Literature: # Bögle 2004 , pages 65, 72-77, #Holgate 1997 , pages 98-99, #Luz, Hans 1992 , page 178, #Luz, Hans 2012 , pages 97-99, structurae48.805242 9.171311
2002	bridge	Overpass over the B14 east of the Schattenring Literature: # Bögle 2004 , page 217 48.758703 9.120448
2003	bridge	Overpass Auerbachstraße via Heilbronner Straße Literature: # Bögle 2004 , pages 217, 221–222, structurae48.813032 9.179869
under construction	bridge	New Neckar Bridge
under construction	bridge	Light rail bridge over the A8 motorway

literature

Ursula Baus: Path network. Pedestrian bridges on the Iga in Stuttgart. Engineers: Schlaich, Bergermann and Partner, Stuttgart . In: Deutsche Bauzeitung db. Journal for architects and civil engineers 127.1993, issue 6, pages 70–80.
Ursula Baus; Mike Schlaich: Pedestrian Bridges: Construction Shape History. Basel 2007.
Annette Bögle (editor); Peter Cachola Schmal (editor); Ingeborg Flagge (Ed.): Slightly wide: Jörg Schlaich, Rudolf Bergermann. Munich 2004, page 65, 72-77.
Alan Holgate: The Art of Structural Engineering: The Work of Jörg Schlaich and His Team. Stuttgart 1997, pp. 98-99, 253.
Falk Jaeger (Ed.): 3 Stadia 2010. Architecture for an African dream. Berlin 2010.
Andreas Keil; Jörg Schlaich: Bridges to the IGA . In: Garten + Landschaft 103.1993, issue 7, pages 49–52.
Hans Luz: From Vorgartenmäuerle to Green U. Forty years of landscape gardener. A work report by Hans Luz , Stuttgart 1992.
Hans Luz: Planning and design of the permanent systems . In: IGA Stuttgart - Expo 93 = Building for Agriculture 1993, Issue 1, Pages 8-18, here: 14-18.
Hans Luz: All about the Green U , manuscript, Stuttgart 2012.
Hans Jochen Oster: Jörg Schlaich, Rudolf Bergermann. Pedestrian bridges 1977–1992. Catalog for the exhibition at the ETH Zurich. Zurich [1992].
Jörg Schlaich; Andreas Keil: Bridges . In: Klaus-Jürgen Evert (editor): The permanent systems. IGA Stuttgart 1993 , Munich 1993, pages 21-25.
Jörg Schlaich; Matthias Schüller: Engineer construction manager Baden-Württemberg. Berlin 1999.
Jörg Schlaich; Rudolf Bergermann; Wolfgang Schiel; Weinrebe, Gerhard: The Solar Updraft Tower. Berlin 2004.
Jörg Schlaich: Well riveted is better than badly welded Social bridge construction - the Second Hooghly Bridge in Calcutta. In: Deutsche Bauzeitung db. Journal for architects and civil engineers 144.2010, issue 8, pages 20–21 [1] .
Jörg Schlaich: Killesberg observation tower . Online (accessed in 2013): [2] .
Stucturae: Killesberg Tower . Online (accessed in 2013): structurae .

Web links

Commons : Schlaich Bergermann und Partner - Collection of images, videos and audio files

Individual evidence

↑ Consolidated financial statements of sbp GmbH, Stuttgart as of December 31, 2015. Published in the Electronic Federal Gazette , accessed on May 12, 2017.
↑ #Schlaich 2010 .
↑ Regional Association Ruhr: RVR bridge over the Rhine-Herne Canal receives European bridge construction award. June 19, 2015, accessed October 4, 2017 .
↑ # Bögle 2004 , page 6.
↑ # Bögle 2004 , page 317.
↑ # Bögle 2004 , page 20.
↑ # Bögle 2004 , page 156.

[ja-2015-1] Consolidated financial statements of sbp GmbH, Stuttgart as of December 31, 2015. Published in the Electronic Federal Gazette , accessed on May 12, 2017.

[2] #Schlaich 2010 .

[3] Regional Association Ruhr: RVR bridge over the Rhine-Herne Canal receives European bridge construction award. June 19, 2015, accessed October 4, 2017 .

[4] # Bögle 2004 , page 6.

[5] # Bögle 2004 , page 317.

[6] # Bögle 2004 , page 20.

[7] # Bögle 2004 , page 156.