SHAKING TABLE TEST OF CAISSON TYPE QUAYWALL CONSIDERING DIFFERENT EARTHQUAKE CONTINUATION TIMES
Ocean-trench-type earthquakes lead to prolonged earthquake motions. This research involves shaking table tests of a caisson type quaywall, focusing on the nature of liquefaction aising from different continuation times and different densities of backfill.Focused on the displacement of the caisson and excess pore pressure of backfill sand, with a small acceleration and loose sand, continuation time has a pronounced influence, and after liquefaction the pore pressure remains high for some time. In the case of dense sand,however, the influence of continuation time is minor, and pore pressure falls rapidly after liquefaction.
Shaking Table Test Liquefaction Continuation Time Caisson Type Quaywall
HIROYUKI YAMAZAKI KAZUHIRO KANEDA KENJI NAGANO
Soil Dynamics Division, Geotechnical & Structural Engineering Department, Port and Airport Research Institute, 3-1-1 Nagase, Yokosuka, 239-0826, Japan
国际会议
第三届中日岩土工程研讨会(Proceedings of the 3rd Sino-Japan Geotechnical Symposium)
重庆
英文
678-684
2007-11-05(万方平台首次上网日期,不代表论文的发表时间)