Your search keyword '"filigran"' showing total 2 results

1. Außergewöhnliche Eisenbahnbrücke über das Filstal – Entwurf, Planung und Ausführung des neuen Wahrzeichens von Baden‐Württemberg.

Author

Zaidman, Igor, Schumm, Marc, Kotz, Peter, and Steigerwald, Tobias

Subjects

*BOX beams, *SELF-consolidating concrete, *BRIDGE design & construction, *RAILROAD bridges, *PEDESTRIAN crosswalks

Abstract

Extraordinary railroad bridge over the Filstal valley – basic and detailed design of the new landmark of Baden‐Württemberg The Viaduct Filstal is part of the Albaufstieg project section of the new railway line Wendlingen–Ulm, and its tunnel‐bridge‐tunnel sequence within the existing topography and the Filstal's steep valley slopes presented the project participants with special conditions that had to be taken into account in the bridge design as well as during construction work. The adjoining tunnels with 30 m track spacing required two independent bridge structures. Therefore, two single‐tracked bridge structures were designed as jointless continuous girders with a length of 485 m and 472 m respectively, running over six spans and built as semi‐integral structures. In the area of the Y‐shaped main piers, the haunch is designed in a dissolved form with shallow inclined struts. The superstructure is a single‐cell box girder section prestressed in longitudinal direction and mildly reinforced in transverse direction. The third‐highest railroad bridge in Germany crosses the Filstal valley at a clear height of 75 m. A major challenge for design and construction of the semi‐integral structure with its slender piers was, among other things, the design of the monolithic connections and the longitudinal force transfer due to breaking loads. The selected construction method envisaged to initially build the superstructure in sections with top‐running launching truss on auxiliary towers for temporary support during construction. After completion of the superstructure, the inclined piers were concreted underneath on a suspended scaffolding, and self‐compacting concrete (SCC) was used at the superstructure connection. The total tonnage of the auxiliary construction structures amounted to approx. 3500 t per bridge. [ABSTRACT FROM AUTHOR]

Published

2022

2. Filigrane Sporthallenüberdachung mit futuristischer Kunststoff‐Gebäudehülle über der Dreifeld‐Sporthalle der Friedrich‐Ebert‐Schule in Pfungstadt.

Author

Engelsmann, Stephan, Peters, Stefan, and Dengler, Christoph

Subjects

*ROOF design & construction, *STRUCTURAL design, *STRUCTURAL frames, *ROOFS, *STEEL buildings, *BUSINESS parks

Abstract

Filigree steel‐chassis with futuristic plastic cladding roofs sports hall Friedrich‐Ebert‐school in Pfungstadt The new sports hall of Friedrich‐Ebert‐school in Pfungstadt is a freestanding solitaire in a heterogeneous industrial area. The steel‐chassis of the roof structure with its futuristic white plastic cladding is an outstanding design element of the building. This article describes the structural design of the roof structure. [ABSTRACT FROM AUTHOR]

Published

2020