Characteristics of Pore Water Pressure of Saturated Silt Under Wave Loading 被引量：1

Characteristics of Pore Water Pressure of Saturated Silt Under Wave Loading

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摘要 The characteristics of dynamic stress in the seabed under wave loading are constant principal stress and continuous rotation of the principal stress direction. Cyclic triaxial-torsional coupling shear tests were pefformed on saturated silt by the hollow cylinder apparatus under different relative densities, deviator stress ratios and vibration frequencies to study the development of pore water pressure of the saturated silt under wave loading. It was found that the development of pore water pressure follows the trend of ＂fast - steady - drastic＂. The turning point from fast to steady stage is not affected by relative density and deviator stress ratio. However, the turning point from steady to drastic stage relies on relative density and deviator stress ratio. The vibration cycle for the liquefaction of saturated silt decreases with increasing deviator stress ratio and increases with relative density. The vibration cycle for the liquefaction of the saturated silt increases with vibration frequency and reaches a peak value, after which it decreases with increasing vibration frequency for the relative density of 70%. But the vibration cycle for the liquefaction of saturated silt increases with vibration frequency for the relative density of 30%. The development of pore water pressure of the saturated silt is influenced by relative density and vibration frequency. The characteristics of dynamic stress in the seabed under wave loading are constant principal stress and continuous rotation of the principal stress direction. Cyclic triaxial-torsional coupling shear tests were pefformed on saturated silt by the hollow cylinder apparatus under different relative densities, deviator stress ratios and vibration frequencies to study the development of pore water pressure of the saturated silt under wave loading. It was found that the development of pore water pressure follows the trend of ＂fast - steady - drastic＂. The turning point from fast to steady stage is not affected by relative density and deviator stress ratio. However, the turning point from steady to drastic stage relies on relative density and deviator stress ratio. The vibration cycle for the liquefaction of saturated silt decreases with increasing deviator stress ratio and increases with relative density. The vibration cycle for the liquefaction of the saturated silt increases with vibration frequency and reaches a peak value, after which it decreases with increasing vibration frequency for the relative density of 70%. But the vibration cycle for the liquefaction of saturated silt increases with vibration frequency for the relative density of 30%. The development of pore water pressure of the saturated silt is influenced by relative density and vibration frequency.

作者高玉峰张健沈扬闫俊

机构地区 Key Laboratory of Ministry of Education for Geomechanics and Embankment Engineering Geotechnical Research Institute of Hohai University

出处《China Ocean Engineering》 SCIE EI 2010年第1期161-172,共12页 中国海洋工程（英文版）

基金 supported by The Key Project of National Natural Science Foundation of China(Grant Nos.50639010 and 50909039)

关键词 SILT wave loading pore water pressure vibration frequency cyclic triaxial-torsional coupling shear rotation of principal stress silt wave loading pore water pressure vibration frequency cyclic triaxial-torsional coupling shear rotation of principal stress

分类号 P731.22 [天文地球—海洋科学]

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