Rutao Liu scite author profile

Rutao Liu

3Publications

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Hohai University, Xi'an Polytechnic University

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Compaction Effect Due to Single Pile Driving in PHC Pile Treated Soft Clayey Deposit

Liu

Zhao³

et al. 2023

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The compaction effect of extra-long prestressed high-strength concrete (PHC) piles in deep soft soil foundation was studied by field test. The pore water pressure gauge, inclinometer were embedded in different plane positions or different depths of the foundation to monitor the pore pressure and deformation of the foundation when driving pile. The research shows that the magnitude of excess pore water pressure caused by single pile installation is mainly related to buried depth of the measuring point and the linear distance between the pile tip and the measuring point. The shorter the distance or the deeper the depth is, the greater the excess pore pressure caused by pile installation. The horizontal influence radius of pile compacting on the pore water pressure is about 10.7 m. The excess pore pressure induced by pile installation increases with depth, and is obviously affected by stratum properties. In the vicinity of soil with high permeability coefficient, such as thin sand layer or silty fine sand layer, the excess pore pressure cannot be accumulated in a large amount. The existing subgrade obviously restricts the lateral deformation of soil between piles and PHC piles. The pile deformation is small at the top and bottom, and large in the middle. The inflection point of the deformation curve appears at the pile connection position. The relationship the excess pore pressure of the measuring point with the depth and distance of the measuring point is given.

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Properties of (Ni-P)–SnO₂(nanometer) electroless composite coating on PET fabrics

Zhang

Liu

2012

Journal of the Textile Institute

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Model tests on jacking installation and lateral loading performance of a new skirted foundation in sand

Zou

Liu

et al. 2020

Ocean Engineering

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Rutao Liu

Compaction Effect Due to Single Pile Driving in PHC Pile Treated Soft Clayey Deposit

Properties of (Ni-P)–SnO₂(nanometer) electroless composite coating on PET fabrics

Model tests on jacking installation and lateral loading performance of a new skirted foundation in sand

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Rutao Liu

Compaction Effect Due to Single Pile Driving in PHC Pile Treated Soft Clayey Deposit

Properties of (Ni-P)–SnO2(nanometer) electroless composite coating on PET fabrics

Model tests on jacking installation and lateral loading performance of a new skirted foundation in sand

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Properties of (Ni-P)–SnO₂(nanometer) electroless composite coating on PET fabrics