Narzędzia
http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-2724fd6e-c2f2-44b4-adf8-faaa31512df1
| Czasopismo |
Inżynieria i Budownictwo |
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| Tytuł artykułu |
Konstrukcje zespolone w budynkach wysokich |
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| Autorzy | Kowalczyk, Ryszard | |||||
| Treść / Zawartość | ||||||
| Warianty tytułu |
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| Języki publikacji | PL | |||||
| Abstrakty |
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| Słowa kluczowe | ||||||
| Wydawca |
Fundacja PZITB "Inżynieria i Budownictwo" |
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| Czasopismo | Inżynieria i Budownictwo | |||||
| Rocznik | 2019 | |||||
| Tom | R. 75, nr 1 | |||||
| Strony | 3--14 | |||||
| Opis fizyczny | Bibliogr. 29 poz., il., tab. | |||||
| Twórcy |
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| 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. |
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| Kolekcja | BazTech | |||||
| Identyfikator YADDA | bwmeta1.element.baztech-2724fd6e-c2f2-44b4-adf8-faaa31512df1 | |||||
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