Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
A space truss structural system is a three-dimensional arrangement of linear elements in a pyramid pattern forming a Double Layer Grid (DLG) system. Space trusses are an elegant and economical means of covering larger areas such as roof systems, in a wide variety of applications such as a stadium, aircraft-hanger, assembly hall, etc. The major problem encountered in using the space truss as a roofing system is the sudden failure of the whole structure due to critical buckling of the top chord member. Earlier research has shown that the optimal solution to overcome such a failure is by providing a small thickness of concrete slab over the space truss, so that the space truss with concrete slab (Composite Space Truss) will act as a floor system for the multi-storey building. For better ventilation and lighting in the building, the need for openings in the composite space truss is unavoidable; however, providing an opening in the concrete slab will reduce the load carrying capacity of the structure. The analysis of a composite space truss of size 30m x 30m with all possible locations of openings for four different support conditions was carried out using ANSYS in order to study the load - deflection behaviour. Further, the ductility factor and energy absorption capacity of the composite space truss with different locations of slab openings were compared.
Czasopismo
Rocznik
Tom
Strony
265--280
Opis fizyczny
Bibliogr. 13 poz., rys., tab., wykr.
Twórcy
Bibliografia
- 1. Mostafa Ei-Shami Sayed, Mahmoud-Maher Elabd. 2018. Effect of floor openings on the capacity of composite space trusses. J. King Saud Univ. – Engg. Sci. 30, (2) 85–92. El-Shami, M. et al. 2016. Effect of floor openings on the capacity of composite space trusses. Journal of King Saud University – Engineering Sciences.
- 2. Sangeetha, P. and Senthil, R. 2017. A study on ultimate behaviour of composite space truss. KSCE J Civ Eng 21, 950-954.
- 3. Sangeetha, P. 2017. Parametric study on the stiffness and energy absorption capacity of composite space truss. Int. J. Adv. App. Sci., 4, 1-8.
- 4. Sangeetha, P. and Senthil, R. 2018. Experimental Study on the Service Load Behaviour of the Composite Space Truss. J. Struct. Eng., 44, 632-636.
- 5. El-Shiekh, A. 1999. Effect of force limiting devices on behaviour of space truss. Eng. Struct., 21, 34-44.
- 6. El-Shiekh, A. 2000. New space truss system – from the concept of implementation. Engg. Struct., 22, 1070-1085.
- 7. El-Shiekh, A. McConnel 1993. Experimental study of behavior of composite space trusses. J. Struct. Engg., 119 (3), 747 - 766.
- 8. El-Shiekh, A. and El-Barhy, H. 1996. Experimental Study of New space truss system. J. Struct. Engg., 122(8), 845-853.
- 9. Murtha Smith, E. 1994. Nonlinear analysis of space truss. J. Struct. Engg.,120, 9, 2717-2147.
- 10. Schmit, LC, Morgan, PR and Hanaor, A. 1994. Ultimate load testing of space trusses. J. Struct. Div., 108, 7,1324-1335.
- 11. Sebastian, WM and McConnel, RE 2000. Nonlinear FE analysis of steel concrete composite structures. J. Struct. Engg., 126 (6) 662-674.
- 12. Murtha Smith, E. 1984. Space truss nonlinear analysis. J. Struct. Engg., 110, (4), 688-705.
- 13. Mezzina, M., Prete, G. and Tosto, A. 1975. Automatic and Experimental Analysis for a Model of Space Grid in Elastic –Plastic Behaviour. Proc. Second Int. Conf. Space Struct., Surrey, England, pp. 500-506.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-870b9781-f425-4e6e-acb0-19402f6b541a