Bearing Capacity Analysis of Piled Raft Foundation for Dhaka – Chittagong Elevated Expressway

Alam, Ahmed Tohameem; Siddiquee, Mehedi Hasan

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dc.contributor.author	Alam, Ahmed Tohameem
dc.contributor.author	Siddiquee, Mehedi Hasan
dc.date.accessioned	2021-10-05T05:54:35Z
dc.date.available	2021-10-05T05:54:35Z
dc.date.issued	2017-11-15
dc.identifier.citation	Nakai, T., Shahin, H.M., Zhang, F. Hinokio,M., Kikumoto, M., Onaha, S. and Nishio, A. (2010). Bearing capacity of reinforced foundation subjected to pull-out loading in 2D and 3D conditions. Geotextiles and Geomembranes, 28(3), 268-280 Nakai, T. Shahin, H.M., Kikumoto, M., Kyokawa, H., Zhang, F.and Farias, M.M. (2011). A simple and unified three-dimensional model to describe various characteristics of soils. Soils and Foundations, 51(6), 1149-1168 Nishida. Y., (1956). A brief note on compression index of soils. J. Soil Mech. Found. Div., ASCE 82 (SM3) (1027-1-1027-14) Park,H., Lee,S.R., (2011). Evaluation of the compression index of soils using an artificial neural network. Comput.Geotech.38, 472–481 Roscoe, K. H. and Burland, J. B. (1968). On the generalized stress-strain behaviour of wet clay. Engineering Plasticity, Cambridge: 535-609 Skempton, A.W. (1944). Notes on the compressibility of clays. Quart. J.Geol. Soc. Lond. 100, 119–135 Sower, G.B., (1970). Introductory Soil Mechanics and Foundation, 3rd Ed. The Macmillan Company of Collier-Macmillan Ltd, London Terzaghi, K., Peck, R.B., (1967). Soil Mechanics in Engineering Practice. John Wiley & Sons Inc., New York. T.W. Lambe, R.V. Whitman, Soil Mechanics, Wiley, New York, 1969 Wroth,C.P., Wood,D.M., (1978). The correlation of index properties with some basic engineering properties of soils. Can.Geotech.J. 15, 137–145	en_US
dc.identifier.uri	http://hdl.handle.net/123456789/1086
dc.description	Supervised by Prof. Dr. Hossain MD. Shahin, Department of Civil and Environmental Engineering (CEE), Islamic University of Technology (IUT), Board Bazar, Gazipur, Bangladesh.	en_US
dc.description.abstract	Bearing capacity is one of the most important characteristics of any kind of soil. For every construction work it is compulsory to calculate the bearing capacity of soil of study area for particular type of foundation. Bearing capacity is generally calculated by some conventional equations like Terzaghi’s bearing capacity equation and Meyerhof’s bearing capacity equation and for different types footings these equations vary. In this research extended sub-loading tij model for Finite Element Method (FEM) is used to calculate the bearing capacity of piled raft foundation. Elastoplastic constitutive model parameter identification is an important task for proper modeling of any soil. In this research, subsoil characteristics of study locations are presented based on field and laboratory test results. Elastoplastic constitutive model parameters of study locations soil has been determined for extended sub-loading tij model. In this study some soil parameters are determined from laboratory tests and by using these, simulation parameters like Compression index for FEM tij simulation (λ), Swelling index for FEM tij simulation (Ќ), Critical stress ration (RCs) and Void ratio at 98KPa (N) are calculated. Using these parameters, bearing capacity of piled raft foundation has been estimated for 0.05% settlement of soil section. Considering the effect of settlement in 2D Finite Element analysis have been conducted. It is found that bearing capacity determined.	en_US
dc.language.iso	en	en_US
dc.publisher	Department of Civil and Environment Engineering, Islamic University of Technology(IUT), Board Bazar, Gazipur, Bangladesh	en_US
dc.subject	Constitutive Model, Bearing Capacity, Settlement, Finite Element by the conventional methods match well with the results of the numerical simulations. Method	en_US
dc.title	Bearing Capacity Analysis of Piled Raft Foundation for Dhaka – Chittagong Elevated Expressway	en_US
dc.type	Thesis	en_US