EFFECTIVE STRESS LOOSELY COUPLED ANALYSIS OF SAND LIQUEFACTION BASED ON STRAIN ENERGY

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JAFARIAN Y.; ABYANEH R.M.

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Paper Information

Journal: Sharif Journal of Civil Engineering Year:2016 | Volume:32-2 | Issue:3.2 Page(s): 55-64

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Information Journal Paper

Title

EFFECTIVE STRESS LOOSELY COUPLED ANALYSIS OF SAND LIQUEFACTION BASED ON STRAIN ENERGY

Author(s)

JAFARIAN Y. | ABYANEH R.M. | Issue Writer Certificate

Keywords

LOOSELY COUPLED NUMERICAL MODELING

SITE RESPONSE ANALYSIS

SOIL LIQUEFACTION

PORE WATER PRESSURE

HYPERBOLIC MODEL

Abstract

Nonlinear SITE RESPONSE ANALYSIS gives a more detailed description of soil behavior than the linear elastic or equivalent linear methods, but application of nonlinear codes in practice has been limited because of its greater number of parameters. In addition, there are some difficulties in calibration and adjustment of parameters in nonlinear codes. There are two main approaches for studying the response of soil deposits subjected to earthquake loading, including total stress and effective stress methods. The major deficiency of the total stress method is that it is unable to take into account the progressive stiffness degradation caused by pore pressure buidup in soil. Only the effective stress method can model the gradual loss of soil strength and stiffness due to the build-up of PORE WATER PRESSURE. In this study, a loosely coupled nonlinear model is presented to predict the undrained behavior of sand subjected to cyclic loading. A modified Kondner - Zelasko (MKZ) model, which is coupled with a PORE WATER PRESSURE generation model based on strain energy, is used for effective stress analysis. There are a couple of methods for the effective stress analysis and modeling of liquefaction, but these methods often require many parameters, and their determination requires greater time and cost. The numerical method presented in this paper is simple and needs a few and determinable parameters. It also provides accurate and acceptable predictions in triaxial condition. Although the proposed model is unable to account for the cyclic mobility and fluctuation of PORE WATER PRESSURE during cyclic loading, it accurately predicts peak points of pore pressure history during cyclic loading. Modeling of cyclic undrained triaxial tests conducted on Toyoura and Frazer River sands confirms that the proposed approach predicts the onset of liquefaction very well, and it can be used in nonlinear SITE RESPONSE ANALYSIS to evaluate liquefaction occurrence.

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APA: Copy

JAFARIAN, Y., & ABYANEH, R.M.. (2016). EFFECTIVE STRESS LOOSELY COUPLED ANALYSIS OF SAND LIQUEFACTION BASED ON STRAIN ENERGY. SHARIF: CIVIL ENINEERING, 32-2(3.2), 55-64. SID. https://sid.ir/paper/128148/en

Vancouver: Copy

JAFARIAN Y., ABYANEH R.M.. EFFECTIVE STRESS LOOSELY COUPLED ANALYSIS OF SAND LIQUEFACTION BASED ON STRAIN ENERGY. SHARIF: CIVIL ENINEERING[Internet]. 2016;32-2(3.2):55-64. Available from: https://sid.ir/paper/128148/en

IEEE: Copy

Y. JAFARIAN, and R.M. ABYANEH, “EFFECTIVE STRESS LOOSELY COUPLED ANALYSIS OF SAND LIQUEFACTION BASED ON STRAIN ENERGY,” SHARIF: CIVIL ENINEERING, vol. 32-2, no. 3.2, pp. 55–64, 2016, [Online]. Available: https://sid.ir/paper/128148/en

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