Author(s): Mohd Shahiq Khan, Akhtarul Haque, Abdul Baqi

Email(s): shahiqiitr@gmail.com

DOI: 10.5958/2321-581X.2016.00009.X   

Address: Dr. Mohd Shahiq Khan1, Akhtarul Haque2, Dr. Abdul Baqi2
1Associate Professor, Department of Civil Engineering, Glocal University, Saharanpur, India
2Students, Department of Civil Engineering, Aligarh Muslim University, Aligarh, India
3Professor, Department of Civil Engineering, Aligarh Muslim University, Aligarh, India
*Corresponding Author

Published In:   Volume - 7,      Issue - 1,     Year - 2016


ABSTRACT:
This paper presents an analytical analysis of double flight stair slab without floor landings with boundary condition fixed at extreme edges. The analysis is based upon finite element method using ANSYS software. The staircase specimen for one storey height of 3m, with mid landing height each at 1.5m from the floor and 100mm thick waist slab has been chosen for a horizontal projection of 2.475m attached with mid landings. The specimen has discretized in to 54 numbers of four noded structural shell elements (shell 181). The specimen has tested under incrementally applied uniformly distributed load over the complete area. Critical value of bending moment and deflection of support arrangement has been obtained. Variation in moments and deflections at critical locations, along the stair slab model has been presented in the graphical form.


Cite this article:
Mohd Shahiq Khan, Akhtarul Haque, Abdul Baqi. Analytical Study of Double Flight Stair Slab without Floor Landing. Research J. Engineering and Tech. 7(1): Jan. -Mar., 2016 page 40-42 . doi: 10.5958/2321-581X.2016.00009.X


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Author(s): Mohd Shahiq Khan, Akhtarul Haque, Abdul Baqi

DOI: 10.5958/2321-581X.2016.00009.X         Access: Open Access Read More

Research Journal of Engineering and Technology (RJET) is an international, peer-reviewed, research journal aiming at promoting and publishing original high quality research in all disciplines of engineering sciences and technology....... Read more >>>

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DOI: 10.5958/2321-581X 


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