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New Building Concepts Protecting against Aircraft Impact

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Future Security (Future Security 2012)

Part of the book series: Communications in Computer and Information Science ((CCIS,volume 318))

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Abstract

Aircraft impact is a decisive load case for critical infrastructure as high-rise buildings in prestigious large-scale urban developments or nuclear power plants. The proposed paper introduces new concepts based on high performance concretes (HPC, UHPC) for the example of the ‘Security Scraper’[1,2] and an innovative superstructure for existing power plants [3,4]. Key analysis steps using Two-Degree-of-Freedom (TDOF) and finite element (FEM) methods and their experimental validation [5] are used to predict dynamic response on local and global levels to maintain structural integrity under impact and to keep the fire outside the security zone.

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References

  1. Nöldgen, M.: Modeling of Ultra High Performance Concrete (UHPC) under Impact Loading – Design of a High Rise Building Core against Aircraft Impact. In: Forschungsergebnisse aus der Kurzzeitdynamik, vol. 19, Fraunhofer Verlag, Heft (2011)

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  2. Nöldgen, M., Fehling, E., Riedel, W., Thoma, K.: Security Concept for Highrise Buildings – Security Scraper. In: Conference on Highrise Towers and Tall Buildings - HTTB. Technische Universität München (April 2010)

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  3. Riedel, W., Stolz, A., Roller, C., Nöldgen, M., Laubach, A., Pattberg, G.: Impact Resistant Superstructure for Power Plants Part I: Box Girders and Concrete Qualities. In: Int. Conf. Structural Mechanics in Reactor Technology, SMIRT, New Delhi, India (2011)

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  4. Nöldgen, M., Laubach, A., Lukaschek, F., Riedel, W., Stolz, A., Roller, C., Pattberg, G.: Impact Resistant Superstructure for Power Plants Part II: Structural Concept and Global Response. In: Int. Conf. Structural Mechanics in Reactor Technology - SMIRT, New Dheli, India (2011)

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  5. Riedel, W., Nöldgen, M., Straßburger, E., Thoma, K., Fehling, E.: Local Damage to Ultra High Performance Concrete Structures caused by an Impact of Aircraft Engine Missiles. Nuclear Engineering & Design 240, 2633–2642 (2010)

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  6. Jonas, W., Rüdiger, E., Gries, M., Riech, H., Rützel, H.: Kinetische Grenztragfähigkeit von Stahlbetonplatten; Bericht RS 165, Hochtief AG, Abt. Kerntechnischer Ingenieurbau, Frankfurt (1982)

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  7. Sugano, T., Tsubota, H., Kasai, Y., Koshika, N., Ohnuma, H., von Rise-mann, W.A., Bickel, D.C., Parks, M.B.: Local damage to reinforced concrete structures caused by impact of aircraft engine missiles–Part 1. Test program, method and results. Nuclear Engineering and Design 140, 387–405 (1993)

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Author information

Authors and Affiliations

  1. Fraunhofer Ernst-Mach-Institut High Speed Dynamics, Freiburg, Germany

    Alexander Stolz & Werner Riedel

  2. Schüssler-Plan Ingenieurgesellschaft mbH, Düsseldorf, Germany

    Markus Noeldgen & Andreas Laubach

Authors
  1. Alexander Stolz
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  2. Werner Riedel
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  3. Markus Noeldgen
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  4. Andreas Laubach
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Editor information

Editors and Affiliations

  1. Institute of Computer Science, Osnabrück University, Albrechtstr. 28, 49076, Osnabrück, Germany

    Nils Aschenbruck

  2. Fraunhofer FKIE, Neuenahrer Straße 20, 53343, Wachtberg, Germany

    Peter Martini  & Jens Tölle  & 

  3. Institute of Computer Science, University of Bonn, 4, Friedrich-Ebert-Allee 144, 53113, Bonn, Germany

    Michael Meier

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© 2012 Springer-Verlag Berlin Heidelberg

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Stolz, A., Riedel, W., Noeldgen, M., Laubach, A. (2012). New Building Concepts Protecting against Aircraft Impact. In: Aschenbruck, N., Martini, P., Meier, M., Tölle, J. (eds) Future Security. Future Security 2012. Communications in Computer and Information Science, vol 318. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-33161-9_21

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  • DOI: https://doi.org/10.1007/978-3-642-33161-9_21

  • Publisher Name: Springer, Berlin, Heidelberg

  • Print ISBN: 978-3-642-33160-2

  • Online ISBN: 978-3-642-33161-9

  • eBook Packages: Computer ScienceComputer Science (R0)

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