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Composite Structures in Tall Buildings
Języki publikacji
Abstrakty
Podstawowymi kryteriami projektowania budynku wysokiego są wytrzymałość (nośność), użytkowalność, komfort użytkowników oraz ekonomiczność. Omówiono rozwiązania konstrukcji zespolonych stosowanych obecnie coraz częściej w budynkach wysokich. Przedstawiono przykłady tego rodzaju budynków zrealizowanych bądź zaprojektowanych, scharakteryzowano rozwiązania elementów zespolonych (słupów, ścian, połączeń) oraz odniesiono się do przyszłości konstrukcji zespolonych.
Basic factors in designing of tall buildings are safety, occupant’s comfort and economy. The application of composite construction in tall and super tall buildings is reaching presently more than 40% of total number of tall buildings. The paper describes various solutions applied in the structural systems of composite tall buildings. Several examples of recently erected tall buildings are mentioned and their structural systems are characterized (solutions of composite mega-columns, composite walls, connections). Trends for the future of composite construction in tall buildings are discussed.
Czasopismo
Rocznik
Tom
Strony
3--14
Opis fizyczny
Bibliogr. 29 poz., il., tab.
Twórcy
autor
- Wyższa Szkoła Ekologii i Zarządzania, Warszawa
Bibliografia
- [1] CTBUH 2013: A Tall Building Review; CTBUH Journal 2014 issue. http://www.ctbuh.org/Publications/Journal/InNumbers/tabid/11081/language/en-US/Default.aspx.
- [2] Sarkisian M.: Designing Tall Buildings Structure as Architecture. Routledge, New York 2012.
- [3] Kowalczyk R., Sinn R., Kilmiste M.: Structural Systems for Tall Buildings. McGraw- Hill, Inc. New York 1995.
- [4] Gu W.: Trends and Innovations in High-Rise Buildings over the Past Decade. University of Illinois at Urbana-Champaign, MSc Thesis, 2014.
- [5] Danai P., Parekh U.: Study of Structural Systems for Composite Construction in High Rise Buildings. Research Paper. "Indian Journal of Research", Vol. 5, Issue 3, March 2016.
- [6] Peng L.: Form Follows Function - The Composite Construction and Mixed Structures in Modern Tall Buildings. "International Journal of High-Rise Buildings", September 2014.
- [7] Colaco J.: Concrete for Tall Residential and Composite Office Buildings. http://www.nbmcw.com/concrete/5528-concrete-for-tall-residential-and-composite-office-buildings.html.
- [8] Trabucco D., Gerardy C., Xiao C., Davies D.: Composite Megacolumns. Council on Tall Buildings and Urban Habitat (CTBUH), October 2016. Research Report.
- [9] Thornton Ch., Prasad J., Hungspruke U., DeScenza R.P.: Miglin Beitler Tower Chicago III. IABSE Congress Report Band 14 (1992).
- [10] Gu Ch., Yian H., Song Y., Jiang Y., Su Z.: Bank of China Hong Kong ARCH 631 - https://www.google.pl/?gfe_rd=cr&ei=sFusWMPPD-dHi8Afzi6jIDA&gws_rd=ssl#q=bank+of+china+structuraI+system+pdf.
- [11] Korista D.S., Sarkisian M.P., Abdelrasaq A.K.: Jin Mao Tower's Unique Structural System CTBUH Research Paper, 1995.
- [12] Teng W., Wang Y., Huang F., Chen H.: Mengyuan. The Jin Mao Tower. https://www.google.pl/?gfe_rd=cr&ei=sFusWMPPDdHi8Afzi-6jIDA&gws_rd=ssl#q=jin+mao+tower+shanghai+structure+pdf.
- [13] Poon D.C.K., Shieh S., Joseph L.M., Chang Ch.: Structural Design of Taipei 101. World's Tallest Building. CTBUH Research Paper, 2004.
- [14] Chang K.C.: Taipei 101 (Taipei Financial Center). A New Challenge in Structural Engineering. Internet: https://www.google.pl/?gfe_rd=cr&ei=ZLzCWP2IOcri8AfzobvYBA&gws_rd=ssl#q=Kuo-Chun+Chang,+Taipei+101+&*. PP Presentation.
- [15] Katz P., Robertson L.: Case Study: Shanghai World Financial Center. CTBUH Research Paper, 2008.
- [16] Zhu Y., Poon D., Velivasakis E.E.: Structural Design Challenges of Shanghai Tower. Internet: https://www.google.pl/?gfe_rd=cr&ei=bK-7KWM LVAqTi8AfJqr1o#q=shanghai+tower+structure+pdf& *.
- [17] Liu Y., Qu Z., Yue W., Liu D.: Shanghai Tower. ARCH 631 Applied Arch Structure | Case Study.
- [18] Xia J., Poon D., Mass D.C.: Case Study: Shanghai Tower. "CTBUH Journal" 2010. Issue II.
- [19] Peng L., Yu C., Yan-Song Z.: The Structural Design of "China Zun" Tower, Beijing. CTBUH Research Paper, 2016.
- [20] Kwok M., Lee A.: Engineering of Guangzhou International Financial Centre. CTBUH Research Paper, 2017.
- [21] Bao L., Chen J., Huang Y., Tong J., Wang D.: The New Structural Design Process of Supertall Buildings in China. CTBUH Research Paper, 2015.
- [22] Liu P., Ho G., Lee A., Yin C., Lee K., Liu G., Huang X.: The Structural Design of Tianjin Goldin Finance 117 Tower. "International Journal of High-Rise Buildings", December 2012.
- [23] Fu G., Betancur J., Poon D., Dannettel M.: Wuhan Greenland Center Main Tower: Seamlessly Inegrating Structure and Architecture. Sep 2012 - CTBUH 2012 9th World Congress, Shanghai.
- [24] ANSI/AISC 341-16 An American National Standard Seismic Provisions for Structural Steel Buildings. July 12, 2016.
- [25] Sarkisian M., Malhias N.J., Huang Z.: Steel Plate Shear Walls, Efficient Structural Solution. CTBUH Research Paper, 2008.
- [26] Seilie I.F., Hooper J.D.: Steel Plate Shear Walls: Practical Design and Construction. "Modern Steel Construction", April 2005.
- [27] Astaneh-Asl A.: Steel Plate Shear Walls. Proceedings, U.S.-Japan Partnership for Advanced Steel Structures, U.S.-Japan Workshop on Seismic Fracture issues in Steel. Structures, February 2000, San Francisco.
- [28] Aslaneh-Asl A.: Seismic Behavior and Design of Composite Steel Shear Walls, Structural Steel Education Council, May 2002.
- [29] Kowalczyk R.: Konstrukcje zespolone w budynkach wysokich. XI konferencja naukowa "Konstrukcje zespolone", Zielona Góra 29-30.06.2017.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2724fd6e-c2f2-44b4-adf8-faaa31512df1