Lowland Technology International
Vol 7 No 1, June (2005)

PREDICTION OF THE DEFORMATION BEHAVIOR OF SAND SUBJECTED TO GENERAL CYCLIC LOADING BY THE TANGENTIAL-SUBLOADING SURFACE MODEL

H. Setouchi (Unknown)
K. Hashiguchi (Unknown)
M. Ueno (Unknown)

Article Info

Publish Date
03 Jun 2005

Abstract

The traditional elastoplastic constitutive equations can not generally describe the inelastic deformation considering the magnitude and the direction of the stress rate. Therefore, the stiffness is unrealistically predicted in thenonproportional loading. The tangential-subloading surface model by Hashiguchi and Tsutsumi (2001) can describe the dependence of both the magnitude and the direction of the inelastic strain rate on the stress rate. In this paper, the tangential strain rate induced by the stress rate component tangential to the yield surface is incorporated into the extended subloading surface model to describe the cyclic loading behavior. The model is applied to the prediction of the deformation behavior of sand subjected to general cyclic loading including the proportional and nonproportional loadings. The validity of the model is verified by comparing with experimental results.

Copyrights © 2005




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Journal Info
Lowland Technology International
Website

Abbrev

ialt_lti

Publisher

International Association of Lowland Technology

Subject

Civil Engineering, Building, Construction & Architecture Engineering Transportation

Description

The Lowland Technology International Journal presents activity and research developments in Geotechnical Engineering, Water Resources Engineering, Structural Engineering, Transportation Engineering, Urban Planning, Coastal Engineering, Disaster Prevention and Mitigation ...