摘要: |
粉土在波浪等动荷载作用下极易发生液化破坏,而孔隙水压力 在粉土动力学行为中扮演了一个很重要的角色,其发展变化会直接影响到土体的稳定性。因此,通过室内波浪作用下的粉土孔压响应模型试验探讨了孔压与波浪之间 的响应情况,发现波浪能量的影响沿土层深度递减,水深条件相同时,响应的孔压随波高的增大而增加,当波浪作用足够长时间后粉土发生液化破坏,此时粉土内累 积的孔压小于上覆土体的自重应力。根据结果提出了1种评价粉土海床稳定性的方法。 |
关键词: 粉土 波浪作用 超静孔隙水压力 液化破坏 |
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基金项目:国家863项目“海底土体原位静动态探测技术”;华东师范大学优秀博士研究生培养基金资助项目 |
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In-situ answering pore pressure under wave and its application to stability analysis of silty seabed |
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Abstract: |
Silt is easy to liquefy under cyclic loading such as wave effect, and excess pore pressure plays an important role in dynamic behavior of silt soil and its change can affect seabed stability directly. The relation between excess pore pressure and wave in silty seabed is studied in this thesis by means of model experiment of answering pore pressure under wave. Besides, the thesis summed up two methods to estimate porepressure under wave and put forward a method to envalue the stability of silty seabed according to the result of the model experiment. |
Key words: silt wave effect excess pore pressure liquefaction |