SEISMIC PERFORMANCE OF PILE FOUNDATION WITH SEMI-RIGID PILE HEAD CONNECTIONS IN LIQUEFIABLE SOIL

Dramatic failure of pile foundations caused by the soil liquefaction was founded leading to many studies for investigating the seismic behavior of pile. The failures were often accompanied with settlement, lateral displacement and tilting of superstructures. Therefore soil-structure interaction effects must be properly considered in the pile design. Two tests by using the centrifuge shaking table were conducted at an acceleration field of 80 g to investigate the seismic response of piles attached with different tip mass and embedded in liquefied or non-liquefied deposits during shaking. It was found that the maximum bending moment of pile occurs at the depth of 4 m and 5 m for dry sand and saturated sand models, respectively. The more tip mass leads to the more lateral displacement of pile head and the more residual bending moment.

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3D dynamic finite element analyses and 1 g shaking table tests on seismic performance of existing group-pile foundation in partially improved grounds under dry condition

Soil Dynamics and Earthquake Engineering ◽

10.1016/j.soildyn.2016.08.032 ◽

2016 ◽

Vol 90 ◽

pp. 196-210 ◽

Cited By ~ 7

Author(s):

Kheradi Hamayoon ◽

Yukihiro Morikawa ◽

Ryosuke Oka ◽

Feng Zhang

Keyword(s):

Finite Element ◽

Seismic Performance ◽

Pile Foundation ◽

Shaking Table ◽

Finite Element Analyses ◽

Shaking Table Tests ◽

Dynamic Finite Element ◽

Group Pile

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Settlement and bearingcapacity of long pile

Vestnik MGSU ◽

10.22227/1997-0935.2015.5.52-61 ◽

2015 ◽

pp. 52-61

Author(s):

Armen Zavenovich Ter-Martirosyan ◽

Zaven Grigor’evich Ter-Martirosyan ◽

Tuan Viet Trinh ◽

Ivan Nikolaevich Luzin

Keyword(s):

Analytical Solution ◽

Bearing Capacity ◽

Quantitative Estimation ◽

Pile Head ◽

Dead Load ◽

Rigid Pile ◽

Side Face ◽

Pile Settlement ◽

General Force ◽

Surrounding Soil

When a long pile is interacting with the soil, the combined force applied to the pile head is distributed among the side face and the pile toe inhomogeneously. The toe gets not more than 30 % from the general force, which doesn’t let using the reserves of the bearing capacity of relatively firm soil under the fifth pile. Account for the depth of the pile toe and the dead load of the soil allows increasing the bearing capacity of the soil under the pile toe and decrease the pile settlement in general. For the quantitative estimation of these factors it is necessary to solve the task on the interaction of the rigid long pile with the surrounding soil, which includes under the pile toe, which is absolutely rigid round stamp.The article presents the formulation and analytical solution to a quantification of the settlement of a circular foundation with the due account for its depth, basing on the development of P. Mindlin’s studies as well as the interactions between a long rigid pile and surrounding soils, including under pile toe.It is proposed to compare the estimated value of stresses under the heel of pile with the initial critical load for the round foundation to check the condition that the estinated value is less than the intial critical one.

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Numerical analyses and shaking table tests on seismic performance of existing group-pile foundation enhanced with partial-ground-improvement method

Japanese Geotechnical Society Special Publication ◽

10.3208/jgssp.jpn-010 ◽

2016 ◽

Vol 2 (38) ◽

pp. 1383-1388 ◽

Cited By ~ 2

Author(s):

Kheradi Hamayoon ◽

Ryosuke Oka ◽

Feng Zhang

Keyword(s):

Seismic Performance ◽

Pile Foundation ◽

Ground Improvement ◽

Shaking Table ◽

Numerical Analyses ◽

Shaking Table Tests ◽

Improvement Method ◽

Group Pile

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Large-scale shaking table model test on seismic performance of bridge-pile-foundation slope with anti-sliding piles: a case study

Bulletin of Engineering Geology and the Environment ◽

10.1007/s10064-019-01614-y ◽

2019 ◽

Vol 79 (3) ◽

pp. 1429-1447 ◽

Cited By ~ 3

Author(s):

Chonglei Zhang ◽

Guanlu Jiang ◽

Lijun Su ◽

Da Lei ◽

Weiming Liu ◽

...

Keyword(s):

Seismic Performance ◽

Model Test ◽

Pile Foundation ◽

Large Scale ◽

Shaking Table ◽

Table Model ◽

Bridge Pile Foundation ◽

Shaking Table Model Test

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Study on Lateral Dynamic Response of Pile Foundation in Liquefiable Soil by Using FBG Method

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.238.337 ◽

2012 ◽

Vol 238 ◽

pp. 337-340 ◽

Cited By ~ 1

Author(s):

Yu Run Li ◽

Yan Liang ◽

Xing Wei ◽

Yun Long Wang ◽

Zhen Zhong Cao

Keyword(s):

Dynamic Response ◽

Data Acquisition ◽

Pile Foundation ◽

Maximum Stress ◽

Shaking Table Test ◽

Data Acquisition System ◽

Seismic Damage ◽

Shaking Table ◽

Calculation Methods ◽

Liquefiable Soil

The study on lateral dynamic response of pile foundation in liquefiable soil is a significant part about seismic damage. In this paper, a new data acquisition system of FBG and calculation methods is used in the small shaking table test. The results show that FBG method used in this test is proved to be efficient and acceptable in both time characteristics and precision characteristics, it may be widely applied in the future doubtlessly. What’s more, the characteristics of p-y curves in different peak accelerations are discussed. And varying of maximum stress and displacement by corresponding acceleration is discussed. A contrast about p-y curve between dry sand and saturate sand is related, which provides a new direction in research about p-y curve.

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