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Simplified formulations for the determination of rotational spring constants in rigid spread footings resting on tensionless soil

    Konuralp Girgin Affiliation

Abstract

In spread footings, the rotational spring constants, which represent the soil-structure interaction, play an important role in the structural analysis and design. To assign the behaviour of soil, which is generally represented via Winkler-type tensionless springs, necessitates time consuming iterative computing procedures in practice. In this study, a straightfor­ward approach is proposed for the soil-structure interaction of rigid spread footings especially subjected to excessive eccentric loading. By considering the uplift of footing, the rotational spring constants of those type footings under axial load and biaxial bending are easily attained through the proposed simplified formulations. Since these formulations enable manual calculation, iterative computer efforts are not required. The formulations under consideration can be applicable to sym­metric and non-symmetric rigid spread footings. The numerical results of this study are verified with SAP2000.

Keyword : spread footing, rotational spring constant, tensionless Winkler-type soil, axial load, bending, biaxial bending, soil-structure interaction

How to Cite
Girgin, K. (2017). Simplified formulations for the determination of rotational spring constants in rigid spread footings resting on tensionless soil. Journal of Civil Engineering and Management, 23(4), 464-474. https://doi.org/10.3846/13923730.2016.1210218
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Apr 21, 2017
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This work is licensed under a Creative Commons Attribution 4.0 International License.