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Year 2023, Volume: 11 Issue: 2, 269 - 282, 30.06.2023

Yiğit Erkoç Necdet Torunbalcı

Abstract

References

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  • [2] Vollers, K. (2008). Morphological scheme of second-generation non-orthogonal high-rises. CTBUH 2008 8th World Congress: Tall and Green, (pp. 1-9). Dubai.
  • [3] Scott, D., Farnsworth, D., Jackson, M., & Clart, M. (2007). THE EFFECTS OF COMPLEX GEOMETRY ON TALL TOWERS. THE STRUCTURAL DESIGN OF TALL AND SPECIAL BUILDINGS, 16(4), 441-455.
  • [4] Vollers, K. (2005). High-Rise Buildings with Twisted Facades. CTBUH 2005 7th World Congress, (pp.1-9). New York.
  • [5] Sev, A., & Başarır, B. (2011). A RECENT TREND IN TALL BUILDING DESIGN: TWISTED FORMS. Journal of New World Sciences Academy, 6(4), 1603-1619.
  • [6] Allouzi, R. (2019). Behaviour of slender RC columns with inclination. Proceedings of the Institution of Civil Engineers - Structures and Buildings, 172(10), 739-748.
  • [7] Hassan, F. F., & Al Zaidee, S. R. (2020). Deformation and strength of inclined RC isolated columns using experimental and three-dimensional finite element analyses. IOP Conference Series: Materials Science and Engineering, 745, p. 012129.
  • [8] Tejaswini, P. S., Madhu, K. S., Chandrashekar, V. C., & Kamatagi, P. (2017). STUDY ON BEHAVIOUR OF CFST INCLINED COLUMN SUBJECTED TO VERTICAL LOAD USING ANSYS SOFTWARE. INDIAN JOURNAL OF APPLIED RESEARCH, 7(1), 745-747.
  • [9] Kwon, K., & Kim, J. (2014). Progressive Collapse and Seismic Performance of Twisted Diagrid Buildings. International Journal of High-Rise Buildings, 3(3), 223-230.
  • [10] Tamura, Y., Tanaka, H., Ohtake, K., Nakai, M., & Kim, Y. (2010). Aerodynamic Characteristics of Tall Building Models with Various Unconventional Configurations. Structures Congress 2010 Conference Proceedings, (pp. 3104-3113). Orlando, Florida.
  • [11] Moon, K. S. (2015). Structural Design and Construction of Complex-Shaped Tall Buildings. IACSIT International Journal of Engineering and Technology, 7(1), 30-35. doi:10.7763/IJET.2015.V7.761
  • [12] Scaramozzino, D., Lacidogna, G., & Carpinteri, A. (2020). New Trends Towards Enhanced Structural Efficiency and Aesthetic Potential in Tall Buildings: The Case of Diagrids. Applied Sciences, 10(11), 3917. doi:10.3390/app10113917
  • [13] Moon, K. S. (2014). Studies on various structural system design options for twisted tall buildings and their performances. THE STRUCTURAL DESIGN OF TALL AND SPECIAL BUILDINGS, 23(5), 319-333. doi:10.1002/tal.1038
  • [14] Lee, D. H., Kim, E. S., Kang, D. E., & Kim, T. (2012). Seismic Performance Evaluation of Twisted Outrigger System. THE FIFTHTEENTH WORLD CONFERENCE ON EARTHQUAKE ENGINEERING. Lisbon.
  • [15] Sanjay, R., & Shivakumaraswamy, B. (2019). COMPARATIVE STUDY ON THE STRUCTURAL BEHAVIOR OF RCC AND STEEL TWISTED BUILDING. International Research Journal of Engineering and Technology, 6(9), 355-360.
  • [16] Song, S., & Zhang, C. (2020). Lateral stiffness and preliminary design methodology of twisted diagrid tube structures. 29(18), e1809. doi:10.1002/tal.1809
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  • [18] Moon, K. S. (2015). Comparative Efficiency between Structural Systems for Tall Buildings. AEI 2015 Conference Proceedings, (pp. 111-119). Milwaukee, Wisconsin.
  • [19] Navya, K. S., Vishal, B. V., Kavitha, S., & Mamatha, P. G. (2021). Seismic Behaviour of Twisted Tall Building with Different Angle of Rotation. In Advances in Mechanical Engineering. Lecture Notes in Mechanical Engineering (pp. 65-75). doi:10.1007/978-981-16-0942-8_6
  • [20] Lee, D.-H., Kim, H.-S., & Kang, J.-W. (2021). Seismic Response Analysis of Twisted Buildings with Three Planar Shapes. Journal of The Korean Association for Spatial Structures, 21(4), 23-30.
  • [21] Shah, Z. A., & Satbhaiya, R. (2022). Analysis of Twisted Tall Structure Considering Lateral Load using ETABS. International Journal of Scientific Research in Civil Engineering, 6(1), 66-75.
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  • [29] URL-6. https://cordek.com/uploads/case_studies/cordek_case_study_bespoke_formwork_baltimore_totow_2016_v2.pdf Last Accessed 19.12.2022

EFFECT OF ARCHITECTURAL DESIGN IN TWISTED FORM BUILDINGS TO STRUCTURAL SYSTEM DESIGN

Year 2023, Volume: 11 Issue: 2, 269 - 282, 30.06.2023

Yiğit Erkoç Necdet Torunbalcı

Abstract

Architects and engineers are looking for different solutions in their designs and the number of buildings with twisted forms is increasing each day with the development of analysis and drawing methods, the development of material technology, the increase and optimization of construction techniques, the. As the height of the building increase, the forms obtained by the rotation of each floor slab relative to the previous slab can be defined as twisted forms. It is possible to construct many different twisted building forms by using different rules, templates, and parameters while designing. Twisted buildings, which can be accepted as a new design methodology with respect to traditional methods, provide many advantages in design but also give rise to significant and critical problems. In this study, the geometrical features and parameters of twisted buildings are introduced. Architectural features, advantages, and disadvantages of twisted buildings are discussed. The positive and negative effects of the twisted form on the behavior of the structural system are investigated, and types of structural systems are provided as an example for buildings with this form. Case study twisted buildings, the problems encountered during the design and construction of these buildings, and the solutions proposed and applied by the designers to these problems are studied. Consequently, the advantages, disadvantages, applicability, and sustainability of twisted form building are evaluated within the framework of the rules and guidelines in today's regulations, and the issues that should be considered in the design of the building and during the construction are discussed.

Keywords

Architectural Design Twisted buildings Torsion in buildings Structural System Design Seismic Behavior Inclined Columns Stepped Columns

References

  • [1] Sev, A., & Tuğrul, F. (2014). Integration of Architectural Design with Structural Form in Non-Orthogonal High-Rise Buildings. JOURNAL OF SUSTAINABLE ARCHITECTURE AND CIVIL ENGINEERING, 7(2), 31-42. doi:10.5755/j01.sace.7.2.7046
  • [2] Vollers, K. (2008). Morphological scheme of second-generation non-orthogonal high-rises. CTBUH 2008 8th World Congress: Tall and Green, (pp. 1-9). Dubai.
  • [3] Scott, D., Farnsworth, D., Jackson, M., & Clart, M. (2007). THE EFFECTS OF COMPLEX GEOMETRY ON TALL TOWERS. THE STRUCTURAL DESIGN OF TALL AND SPECIAL BUILDINGS, 16(4), 441-455.
  • [4] Vollers, K. (2005). High-Rise Buildings with Twisted Facades. CTBUH 2005 7th World Congress, (pp.1-9). New York.
  • [5] Sev, A., & Başarır, B. (2011). A RECENT TREND IN TALL BUILDING DESIGN: TWISTED FORMS. Journal of New World Sciences Academy, 6(4), 1603-1619.
  • [6] Allouzi, R. (2019). Behaviour of slender RC columns with inclination. Proceedings of the Institution of Civil Engineers - Structures and Buildings, 172(10), 739-748.
  • [7] Hassan, F. F., & Al Zaidee, S. R. (2020). Deformation and strength of inclined RC isolated columns using experimental and three-dimensional finite element analyses. IOP Conference Series: Materials Science and Engineering, 745, p. 012129.
  • [8] Tejaswini, P. S., Madhu, K. S., Chandrashekar, V. C., & Kamatagi, P. (2017). STUDY ON BEHAVIOUR OF CFST INCLINED COLUMN SUBJECTED TO VERTICAL LOAD USING ANSYS SOFTWARE. INDIAN JOURNAL OF APPLIED RESEARCH, 7(1), 745-747.
  • [9] Kwon, K., & Kim, J. (2014). Progressive Collapse and Seismic Performance of Twisted Diagrid Buildings. International Journal of High-Rise Buildings, 3(3), 223-230.
  • [10] Tamura, Y., Tanaka, H., Ohtake, K., Nakai, M., & Kim, Y. (2010). Aerodynamic Characteristics of Tall Building Models with Various Unconventional Configurations. Structures Congress 2010 Conference Proceedings, (pp. 3104-3113). Orlando, Florida.
  • [11] Moon, K. S. (2015). Structural Design and Construction of Complex-Shaped Tall Buildings. IACSIT International Journal of Engineering and Technology, 7(1), 30-35. doi:10.7763/IJET.2015.V7.761
  • [12] Scaramozzino, D., Lacidogna, G., & Carpinteri, A. (2020). New Trends Towards Enhanced Structural Efficiency and Aesthetic Potential in Tall Buildings: The Case of Diagrids. Applied Sciences, 10(11), 3917. doi:10.3390/app10113917
  • [13] Moon, K. S. (2014). Studies on various structural system design options for twisted tall buildings and their performances. THE STRUCTURAL DESIGN OF TALL AND SPECIAL BUILDINGS, 23(5), 319-333. doi:10.1002/tal.1038
  • [14] Lee, D. H., Kim, E. S., Kang, D. E., & Kim, T. (2012). Seismic Performance Evaluation of Twisted Outrigger System. THE FIFTHTEENTH WORLD CONFERENCE ON EARTHQUAKE ENGINEERING. Lisbon.
  • [15] Sanjay, R., & Shivakumaraswamy, B. (2019). COMPARATIVE STUDY ON THE STRUCTURAL BEHAVIOR OF RCC AND STEEL TWISTED BUILDING. International Research Journal of Engineering and Technology, 6(9), 355-360.
  • [16] Song, S., & Zhang, C. (2020). Lateral stiffness and preliminary design methodology of twisted diagrid tube structures. 29(18), e1809. doi:10.1002/tal.1809
  • [17] Kim, S., & Lee, K. (2015). Potentials of elastic seismic design of twisted high-rise steel diagrid frames. Steel and Composite Structures, 18(1), 121-134.
  • [18] Moon, K. S. (2015). Comparative Efficiency between Structural Systems for Tall Buildings. AEI 2015 Conference Proceedings, (pp. 111-119). Milwaukee, Wisconsin.
  • [19] Navya, K. S., Vishal, B. V., Kavitha, S., & Mamatha, P. G. (2021). Seismic Behaviour of Twisted Tall Building with Different Angle of Rotation. In Advances in Mechanical Engineering. Lecture Notes in Mechanical Engineering (pp. 65-75). doi:10.1007/978-981-16-0942-8_6
  • [20] Lee, D.-H., Kim, H.-S., & Kang, J.-W. (2021). Seismic Response Analysis of Twisted Buildings with Three Planar Shapes. Journal of The Korean Association for Spatial Structures, 21(4), 23-30.
  • [21] Shah, Z. A., & Satbhaiya, R. (2022). Analysis of Twisted Tall Structure Considering Lateral Load using ETABS. International Journal of Scientific Research in Civil Engineering, 6(1), 66-75.
  • [22] URL-1.https://www.de-simone.com/assets/Grove-at-Grand-Bay_Image-by-Rasmus-Hjortshoj_045LO.jpg Last Accessed 16.11.2022
  • [23] Desimone, V., Ramirez, L., & Mohammad, A. (2015). Structural Challenges of Twisting Towers. Global Interchanges: Resurgence of the Skyscraper City (pp. 478-484). New York: CTBUH 2015 Conference Proceedings.
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  • [25] URL-3. https://www.som.com/wp-content/uploads/2021/08/205214_000_N161_large-scaled.jpg Last Accessed 13.12.2022
  • [26] Baker, W. F., Brown, C. D., Young, B. S., & Zachrison, E. (2010). Infinity Tower, Dubai, UAE. Structures Congress 2010 Conference Proceedings, (pp. 3078-3087).
  • [27] URL-4.https://www.som.com/wp-content/uploads/2021/08/213070_000_N74_large-scaled.jpg Last Accessed 14.12.2022
  • [28] URL-5.http://www.frogmore.co.uk/wp-content/uploads/2016/08/Baltimore-Brochure-1.pdf Last Accessed 11.11.2022
  • [29] URL-6. https://cordek.com/uploads/case_studies/cordek_case_study_bespoke_formwork_baltimore_totow_2016_v2.pdf Last Accessed 19.12.2022
There are 29 citations in total.

Details

Primary Language English
Subjects Architecture
Journal Section Architecture
Authors

Yiğit Erkoç 0009-0008-1070-0496

Necdet Torunbalcı 0000-0002-3298-8127

Publication Date June 30, 2023
Submission Date May 29, 2023
Published in Issue Year 2023 Volume: 11 Issue: 2

Cite

APA Erkoç, Y., & Torunbalcı, N. (2023). EFFECT OF ARCHITECTURAL DESIGN IN TWISTED FORM BUILDINGS TO STRUCTURAL SYSTEM DESIGN. Gazi University Journal of Science Part B: Art Humanities Design and Planning, 11(2), 269-282.
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