Rehabilitation of an Edified Building in a Seismic Zone in Algeria According to the Eurocode 8-3

Usually, soils with mainly fine grain-sized content, as loess, are considered to have low liquefaction potential. Regardless of this, many researchers have analyzed and presented much field evidence that silty soil (in particular loess) liquefaction occurred under certain conditions. In Bulgaria, the first loess river terrace (T1) within the Danube River lowland areas is covered by low plasticity silty loess with a thickness of 10–12 m. Тhe groundwater level is often located between 5 m and 8 m in depth so that substantial part of loess deposits are saturated and immersed. Meanwhile, that region of North Bulgaria is under the influence of the Vrancea seismic zone in Romania, which is able to generate strong earthquakes with magnitudes M≥7.0. The present paper aims to assess the liquefaction potential of loess in a ground profile representative of the T1 loess river terraces by the so-called simplified procedure based on SPT, which is incorporated in the software code NovoLiq. The safety factor against liquefaction FSL is estimated at the respective depths in one-dimensional model of the ground profile for free-field conditions at varying peak ground accelerations amax. The critical amax, at which liquefaction of loess is possible according to the assumptions of the applied simplified procedure and the requirements of the National Annex of Bulgaria to Eurocode 8, has been established.

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Seismic codes based equivalent nonlinear and stochastic soil structure interaction analysis

Studia Geotechnica et Mechanica ◽

10.2478/sgem-2020-0007 ◽

2020 ◽

Vol 0 (0) ◽

Author(s):

Mohamed Elhebib Guellil ◽

Zamila Harichane ◽

Erkan Çelebi

Keyword(s):

Shear Modulus ◽

Soil Structure ◽

Soil Layer ◽

Shallow Foundation ◽

Soil Structure Interaction ◽

Base Case ◽

Eurocode 8 ◽

Seismic Zone ◽

Seismic Codes ◽

Structure Interaction

AbstractThe aim of this study is to consider the effects of the variation of shear modulus ratio (G/G0) and damping ratio (ξ) of soil, obtained by a linear iterative method based on the design spectra of seismic codes, the soil environment in terms of uncertainties in shear modulus using Monte Carlo simulations and the foundation damping (ξf) of flexible base for analyses of the Soil-Structure Interaction (SSI) problems. A squat structure with circular shallow foundation resting on a soil layer over a homogeneous half-space is studied by using cone model and considering seismic zone effect on structural response. Firstly, after showing the effects of the correction of G and ξ on impedance functions and the responses of soil-foundation-structure system, a study is carried out to compare these effects to those of the modelling of uncertainties in shear modulus as random variations. Secondly, a comparative analysis on design response spectra and base shear forces was carried out for four seismic codes (Algerian Seismic Rules RPA99-2003, Eurocode 8–2004, International Building Code IBC-2015 and Indian Code IS-1893-2002) considering the three cases of SSI: SSI effects (initial G and ξ), nonlinear SSI (corrected G and ξ) and stochastic SSI (random G with COV = 20%) compared to the fixed base case. Results show that the correction of G and ξ, according to the equivalent nonlinear method in all the cases, leads to a remarkable decrease in peak responses but show a huge amount of reduction in the second study for IBC-2015 and IS-1893-2002 codes compared to the other codes.

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REHABILITATION OF AN EDIFIED BUILDING IN A SEISMIC ZONE IN ALGERIA ACCORDING TO THE EUROCODE 8-3

Proceedings of the 5th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2015) ◽

10.7712/120115.3666.799 ◽

2015 ◽

Author(s):

Amar Kassoul ◽

Abdelkader Zerrouk ◽

Imane Djafar Henni

Keyword(s):

Eurocode 8 ◽

Seismic Zone

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A comparison of the seismic design requirements in the New Zealand Loadings Standard with other major design codes

Bulletin of the New Zealand Society for Earthquake Engineering ◽

10.5459/bnzsee.35.3.190-203 ◽

2002 ◽

Vol 35 (3) ◽

pp. 190-203 ◽

Cited By ~ 7

Author(s):

Richard Fenwick ◽

David Lau ◽

Barry Davidson

Keyword(s):

New Zealand ◽

Building Code ◽

Eurocode 8 ◽

Seismic Zone ◽

Concrete Frames ◽

Codes Of Practice ◽

Moment Resisting ◽

Australian Standard ◽

Strength And Stiffness ◽

The Many

A series of ductile moment resisting reinforced concrete frames are sized to meet the minimum seismic provisions of the New Zealand Loadings Standard, NZS 4203-1992, the Draft NZ/Australian Loadings Standard, the Uniform Building Code, UBC-1997, the International Building code, IBC 2000 (1998 draft) and Eurocode 8 (1998 draft). The results of the analyses allow valid comparisons to be made between the different codes. It is shown that comparisons of individual clauses can be misleading due to the many interactions that occur between clauses. Comparative analyses were made for the buildings described above located in both high and low seismic regions. It is shown that the strength and stiffness requirements for both the New Zealand Loadings Standard and the Draft Standard are low compared with the other codes of practice in the high seismic zone. It is recommended that the required design strengths in the Draft NZ/Australian Standard be increased.

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