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P-Delta Effect on Multi-Storey Buildings

A.N.Pattar*, S.M. Muranal**

Periodicity:September - November'2017
DOI : https://doi.org/10.26634/jste.6.3.13721

Abstract

The buildings are prone to deform laterally from original position with an eccentricity during an earthquake. When building structures are subjected to seismic loading causing the structure to deform, the resulting eccentricity of the total gravity load due to inclined axes of structure causes the extra moments at the base. The presence of infill, bracing and number of storeys may affect the additional displacement due to P-Delta. In the present study, the design parameters of buildings which are affected by P-Delta, such as lateral displacement, base shear, and moment at the base-columns are discussed. The non-iterative P-Delta analysis is adopted to determine the P-Delta effect for symmetric rectangular regular plan structures. It has been reported that, the bare frame Reinforced Concrete (RC) structures more than 20 stories are required to be analysed and designed for P-Delta effect. The P-Delta effect significantly controlled by the braced systems and masonry infill structures.

Keywords

How to Cite this Article?

Pattar, A.N., and Muranal, S.M. (2017). P-Delta Effect on Multi-Storey Buildings. i-manager’s Journal on Structural Engineering, 6(3), 8-18. https://doi.org/10.26634/jste.6.3.13721

References

[1]. American Society of Civil Engineers (2013). Minimum Design Loads for Buildings and other Structures (Vol.7). ASCE.

[2]. Dinar, Y., Karim, S., Barua, A., & Uddin, A. (2013). P-Delta Effect in Reinforced Concrete Structures of Rigid joint. International Organization of Scientific Research: Journal of Mechanical and Civil Engineering, 10(4), 42-49.

[3]. Dinar, Y., & Nazim, U. (2013). Variation of Deflection of Steel High-Rise Structure due to P-Delta effect considering Global Slenderness Ratio. International Journal of Emerging Technology and Advanced Engineering, 3(12), 250-256.

[4]. Jinya, M. H., & Patel, V. R. (2014). Analysis of RC frame with and without masonry infill wall with different stiffness with outer central opening. International Journal of Research in Engineering and Technology, 3(6), 76-83.

[5]. Mulgund, G. V., & Kulkarni, A. B. (2011). Seismic assessment of RC frame buildings with brick masonry infills. International Journal of Advanced Engineering Sciences and Technologies, 2(2), 140-147.

[6]. Neuss, C. F., & Maison, B. F. (1984). Analysis for P-? effects in seismic response of buildings. Computers & Structures, 19(3), 369-380.

[7]. Niruba, S., Boobalakrishnan, K. V., & Gopalakrishnan, K. M. (2014). Analysis of Masonry Infill in a Multi-Storied Building. Analysis, 3(3), 26-31.

[8]. Pettinga, J. D., & Priestley, M. N. (2007). Accounting for p-delta effects in structures when using direct displacement-based design. Pavia, Italy: IUSS Press.

[9]. Rutenberg, A. (1981). A direct P-delta analysis using standard plane frame computer programs. Computers & Structures, 14(1-2), 97-102.

[10]. Shaharban, P. S., & Manju, P. M. (2014). Behaviour of Reinforced Concrete Frame with In-Fill Walls under Seismic Loads using ETABS. International Journal of Civil Engineering & Technology (IJCIET), 5(12), 181-187.

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P-Delta Effect on Multi-Storey Buildings

Abstract

Keywords

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References

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