drained and undrained sand behaviour by multilaminate bounding surface model
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abstract
the present paper is devoted to a new critical state based plasticity model able to predict drained and undrained behaviour of granular material. it incorporates a bounding surface plasticity model describing in multilaminate framework to capitalize on advantages of this mathematical framework. most of the models developed using stress/strain invariants are not capable of identifying the parameters depending on directional effects such as principal stress rotation and fabric this is mainly because stress/strain invariants are scalar quantities. the principal features of this model can be postulated as considering both inherent and induced anisotropy, principal stress rotation. since the local instability of saturated sand within post-liquefaction is highly dependent on the residual inherent/induced anisotropy, bedding plane effects and also the stress/strain path the new mode is competent to be employed in this regard. the constitutive equations of the model are derived within the context of non-linear elastic behaviour for the whole medium and plastic sliding of interfaces of predefined planes. as follows, the constitutive equations are described in detail and then the experimental results and sensitive analysis of key material constants are shown which all imply the power of the model in predicting of soil behaviour under any condition in soil structures.
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Journal title:
international journal of civil engineeringجلد ۹، شماره ۲، صفحات ۱۱۱-۱۲۵
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