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Numerical analysis of cable net structure with application of different pretensioning methods

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Tension roofs based on cable systems are suitable for covering long span buildings. Such structures are considered to be economic, modern and aesthetic solutions in various multi-functional arenas. Development of materials and construction technologies resulted in an increased number of applications of cable systems in recent years. However, the origin of such structures dates back to 1953, when the cable net supported roof over Raleigh Arena in North Carolina was completed. Designed as self-balanced, the system was eventually pretensioned in order to provide greater stiffness. This implementation became an indispensable part of cable nets construction. A unique method of pretension was applied in one of the first and most recognizable Polish examples of tensile structure, which is the cable net roof over the open-air theater in Koszalin. The system was pretensioned through the outward rotation of simply supported edge arches, which induced tensile forces in roof cables. This simple and effective concept became an inspiration for the introduced study, which focused on the numerical application of such a solution. In this paper, the results of comparative finite element analysis of introduced cable net structure with different methods of pretensioning are presented. The investigation was preceded by the analysis of net shape, concentrated on the value of cable sags in the saddle point of parabolic hyperboloid surface. Effectiveness of the presented solutions was assessed through comparison of internal forces distribution and model deformation. Numerical verification of consecutive concepts led to a gradual reduction of directly prestressed members from 16 suspension cables to 6 cable stays in the analysed roof.
Twórcy
  • Rzeszow University of Technology, Department of Building Structures, 2 Poznańska Street, 35-959 Rzeszów; tel. 178651610
Bibliografia
  • [1] Buchholdt, H. A. An introduction to cable roof structures, second edition, Thomas Telford, London, 1999.
  • [2] Pałkowski, S. Steel structures, Some issues of calculating and designing, Polish Scientific Publishers PWN, Warsaw, 2009 (in Polish).
  • [3] Łubiński, M.; Żółtowski, W. Metal structures, Part 2, Arkady, Warsaw, 2004 (in Polish).
  • [4] Pałkowski, S. Cable structures, Scientific-Technical Publishers WNT, Warsaw, 1994 (in Polish).
  • [5] Kucharczuk, W.; Labocha, S. Steel structure halls, Designers guide, Polish Technical Publishers PWT, Rzeszow, 2012 (in Polish).
  • [6] Jankowiak, W. Selected issues of steel structures, Part 2 - Tanks, Storage bins, Suspended structures, PUT Publishing House, Poznan, 1994 (in Polish).
  • [7] Filipkowski, J.; Deska, K. Geometrical framework of a suspended structure and the state of displacement due to snow load, 25th International Conference on Structural Failures, Międzyzdroje, May 2011 (in Polish).
  • [8] Bradshaw, R. History of the analysis of cable net structures, Proceedings of the 2005 Structures Congress and 2005 Forensic Engineering Symposium, New York, April 2005.
  • [9] Pawłowski, W.; Deska, K. Registration of geometrical structure of suspended roof for example of the open-air theatre roof in Koszalin, Scientific Bulletin of Lodz Technical University: Civil Engineering, v. 60, no. 1052, Lodz University of Technology Press, Lodz, 2009, 97-105 (in Polish).
  • [10] PN-EN 1991-1-3: 2005 Eurocode 1: Actions on structures - Part 1-3: General actions - Snow loads (in Polish).
  • [11] EN 1993-1-11: 2006 Eurocode 3: Design of steel structures - Part 1-11: Design of structures with tension components.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-01dc5e98-f87d-458f-9d19-c4cab649044e
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