Add to ORKGA model levee resting atop soft compressible peaty organic soil in the Sacramento/San Joaquin Delta was shaken by forced vibration to study the seismic deformation potential of the underlying peat and measure dynamic levee-peat interaction. Forced vibration testing occurred over a frequency range of 0 Hz to 5 Hz and produced force amplitudes applied to the embankment crest that induced elastic to nonlinear levee-foundation responses. Available data include acceleration records from sensors mounted on the model levee and on the ground surface near the model levee, and acceleration and pore pressure measurements from sensors embedded in the underlying peat. A remote data acquisition system measured settlements and pore pressures over a span o...
Levee systems along Kushiro and Tokachi Rivers in Hokkaido, Japan, rest on significant deposits of p...
We investigate through laboratory testing the volume change characteristics of peaty organic soil fr...
This study has two main thrusts. The first part of the study addresses static seepage and stability ...
A model levee resting atop soft compressible peaty organic soil in the Sacramento/San Joaquin Delta ...
The Sacramento-San Joaquin Delta is the hub of California's water distribution system, which consist...
A dynamic field test of a model levee was performed to study the behavior of very soft and compressi...
A dynamic field test of a model levee was performed to study the behavior of very soft and compressi...
A dynamic field test of a model levee was performed to study the behavior of very soft and compressi...
Four large-scale centrifuge tests were performed at the NEES@UCDavis equipment site to study the cyc...
Remote data monitoring was performed to measure settlement and pore pressure in soft peat beneath a ...
Two large scale 9 m radius centrifuge tests were conducted at the NEES@UCDavis experimental facility...
The dynamic response of peaty organic soils is not well understood but its poor competency as an eng...
An eccentric mass shaker mounted to the crest of a model levee resting on very soft peat soil was us...
The Sacramento-San Joaquin Delta is a 700,000 acre estuary at the confluence of the Sacramento and S...
The vast 2,800 km2 Sacramento-San Joaquin Delta, California, lies in a seismically active region and...
Levee systems along Kushiro and Tokachi Rivers in Hokkaido, Japan, rest on significant deposits of p...
We investigate through laboratory testing the volume change characteristics of peaty organic soil fr...
This study has two main thrusts. The first part of the study addresses static seepage and stability ...
A model levee resting atop soft compressible peaty organic soil in the Sacramento/San Joaquin Delta ...
The Sacramento-San Joaquin Delta is the hub of California's water distribution system, which consist...
A dynamic field test of a model levee was performed to study the behavior of very soft and compressi...
A dynamic field test of a model levee was performed to study the behavior of very soft and compressi...
A dynamic field test of a model levee was performed to study the behavior of very soft and compressi...
Four large-scale centrifuge tests were performed at the NEES@UCDavis equipment site to study the cyc...
Remote data monitoring was performed to measure settlement and pore pressure in soft peat beneath a ...
Two large scale 9 m radius centrifuge tests were conducted at the NEES@UCDavis experimental facility...
The dynamic response of peaty organic soils is not well understood but its poor competency as an eng...
An eccentric mass shaker mounted to the crest of a model levee resting on very soft peat soil was us...
The Sacramento-San Joaquin Delta is a 700,000 acre estuary at the confluence of the Sacramento and S...
The vast 2,800 km2 Sacramento-San Joaquin Delta, California, lies in a seismically active region and...
Levee systems along Kushiro and Tokachi Rivers in Hokkaido, Japan, rest on significant deposits of p...
We investigate through laboratory testing the volume change characteristics of peaty organic soil fr...
This study has two main thrusts. The first part of the study addresses static seepage and stability ...