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    ‘Robinson’ Pedestrian Bridge in Budapest, Hungary

    New search for: Pál, Gábor
    New search for: Kemenczés, András
    New search for: Hunyadi, László
    New search for: Szabados, Mihály

    ‘Robinson’ Bridge was built as part of the National Athletic Centre project in Budapest, Hungary. The 168 m long cable‐stayed pedestrian bridge has a 65 m tall inclined pylon standing on a small island. The 12,72 m wide main girder is suspended to a monopylon with a two‐plane fan‐shaped FLC stay cable system. The landmark bridge's stunning appearance was achieved with hybrid structures. Both the pylon and parts of the slender stiffening girder were made of S460 steel tubes filled with concrete to enhance their load‐bearing and dynamic characteristics. Due to very limited construction area, a special erection process was used for the pylon involving a 200t floating crane. The stiffening girder was built with incremental launching. Cable tensioning with a curved deck proposed special design challenges. Large displacements had to be accurately predicted. To meet the strictest requirements for pedestrian comfort, TMDs were applied and dynamic load tests carried out to prove the results.

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    ‘Robinson’ Pedestrian Bridge in Budapest, Hungary

    New search for: Pál, Gábor
    New search for: Kemenczés, András
    New search for: Hunyadi, László
    New search for: Szabados, Mihály

    ‘Robinson’ Bridge was built as part of the National Athletic Centre project in Budapest, Hungary. The 168 m long cable‐stayed pedestrian bridge has a 65 m tall inclined pylon standing on a small island. The 12,72 m wide main girder is suspended to a monopylon with a two‐plane fan‐shaped FLC stay cable system. The landmark bridge's stunning appearance was achieved with hybrid structures. Both the pylon and parts of the slender stiffening girder were made of S460 steel tubes filled with concrete to enhance their load‐bearing and dynamic characteristics. Due to very limited construction area, a special erection process was used for the pylon involving a 200t floating crane. The stiffening girder was built with incremental launching. Cable tensioning with a curved deck proposed special design challenges. Large displacements had to be accurately predicted. To meet the strictest requirements for pedestrian comfort, TMDs were applied and dynamic load tests carried out to prove the results.

    Access

    Check access
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    ‘Robinson’ Pedestrian Bridge in Budapest, Hungary

    New search for: Pál, Gábor
    New search for: Kemenczés, András
    New search for: Hunyadi, László
    New search for: Szabados, Mihály

    ‘Robinson’ Bridge was built as part of the National Athletic Centre project in Budapest, Hungary. The 168 m long cable‐stayed pedestrian bridge has a 65 m tall inclined pylon standing on a small island. The 12,72 m wide main girder is suspended to a monopylon with a two‐plane fan‐shaped FLC stay cable system. The landmark bridge's stunning appearance was achieved with hybrid structures. Both the pylon and parts of the slender stiffening girder were made of S460 steel tubes filled with concrete to enhance their load‐bearing and dynamic characteristics. Due to very limited construction area, a special erection process was used for the pylon involving a 200t floating crane. The stiffening girder was built with incremental launching. Cable tensioning with a curved deck proposed special design challenges. Large displacements had to be accurately predicted. To meet the strictest requirements for pedestrian comfort, TMDs were applied and dynamic load tests carried out to prove the results.

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    Title:

    ‘Robinson’ Pedestrian Bridge in Budapest, Hungary

    Contributors:

    Pál, Gábor (author) / Kemenczés, András (author) / Hunyadi, László (author) / Szabados, Mihály (author)

    Published in:

    ce/papers ; 7 ; 171-176

    Publication date:

    2024-09-01

    Size:

    6 pages

    ISSN:

    2509-7075

    DOI:

    https://doi.org/10.1002/cepa.3084

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    pedestrian bridge , cable‐stayed , single pylon , hybrid structure , composite

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