Effects of principal stress rotation on the wave–seabed interactions

DS Jeng; H Nago; Hai-Sui Yu; J Li; K Ishihara; K Ishihara; K Miura; K Zen; M Gutierrez; S Sassa; S Sassa; SL Dunn; Y Yang; Y Yang; Y Yang; YF Dafalias; Yunming Yang; Z Liu; Zhe Wang

research

Effects of principal stress rotation on the wave–seabed interactions

Authors: DS Jeng
H Nago
Hai-Sui Yu
J Li
K Ishihara
K Ishihara
K Miura
K Zen
M Gutierrez
S Sassa
S Sassa
SL Dunn
Y Yang
Y Yang
Y Yang
YF Dafalias
Yunming Yang
Z Liu
Zhe Wang
Publication date: 1 January 2016
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

This paper simulates the wave–seabed interactions considering the principal stress rotation (PSR) by using the finite element method. The soil model is developed within the framework of kinematic hardening and the bounding surface concept, and it can properly consider the impact of PSR by treating the PSR generating stress rate independently. The simulation results are compared with centrifuge test results. The comparison indicates that the simulation with the soil model considering the PSR can better reproduce the test results on the development of pore water pressure and liquefaction than the soil model without considering the PSR. It indicates that it is important to consider the PSR impact in simulation of wave–seabed soil interactions