Friction Characteristics of Pile-soil Interface under Temperature Cycles and Numerical Simulation of Shaft Resistance

赵刚; 李驰; 斯日古楞

doi:10.13409/j.cnki.jdpme.2017.04.006

您当前的位置：

首页 >

文章列表页 >

Friction Characteristics of Pile-soil Interface under Temperature Cycles and Numerical Simulation of Shaft Resistance

更新时间：2025-12-11

- Friction Characteristics of Pile-soil Interface under Temperature Cycles and Numerical Simulation of Shaft Resistance
- Vol. 37, Issue 4, Pages: 546-550+564(2017)
- 作者机构：
- 作者简介：
- 基金信息：
- DOI：10.13409/j.cnki.jdpme.2017.04.006
  CLC： U473.1;TU83
- Published：2017
- 稿件说明：
移动端阅览
[1]赵刚,李驰,斯日古楞.温度循环下桩土界面特性及桩侧摩阻力数值模拟[J].防灾减灾工程学报,2017,37(04):546-550+564.

赵刚, 李驰, 斯日古楞. Friction Characteristics of Pile-soil Interface under Temperature Cycles and Numerical Simulation of Shaft Resistance[J]. 2017, 37(4): 546-550+564.
[1]赵刚,李驰,斯日古楞.温度循环下桩土界面特性及桩侧摩阻力数值模拟[J].防灾减灾工程学报,2017,37(04):546-550+564. DOI： 10.13409/j.cnki.jdpme.2017.04.006.

赵刚, 李驰, 斯日古楞. Friction Characteristics of Pile-soil Interface under Temperature Cycles and Numerical Simulation of Shaft Resistance[J]. 2017, 37(4): 546-550+564. DOI： 10.13409/j.cnki.jdpme.2017.04.006.

摘要

通过改进的剪切实验系统

测定桩土界面剪切强度与温度循环次数间的关系及桩土界面摩擦系数随温度循环的变化

并通过建立数值计算模型研究温度循环下桩侧平均侧阻力的变化规律。研究表明

桩土界面在经历多次温度循环后

界面剪切强度随循环次数的增加而减小。且法向应力越大

经历温度循环后界面剪切强度的损失在增大。升温过程中

桩土界面的摩擦系数减小

桩侧平均侧摩阻力在减小;降温过程中

界面的摩擦系数在增加

桩侧平均侧摩阻力在增大。经过多次温度循环后

桩土界面的摩擦系数基本保持不变

桩侧平均侧摩阻力在升温和降温过程中变化越来越平稳。

Abstract

The relationship between the shear strength of interface and the times of cycles is analyzed by the improved labotatory experiment

The friction coefficient of the pile and soil interface changes with the temperature cycle

and the variety of average shaft resisitance of temperature cycle is studied by numerical calculation model. It is found that the shear strength of interface decreases with the increase of the times of cycles after several times of temperature cycles

and the greater the normal stress is

the more loss of shear strength is after the temperature cycle. During the process of temperature rising

the friction coefficient of the pile and soil interface decreases and the average shaft resistance decreases. During the process of temperature declining

the friction coefficient of the interface increases while the average shaft resistance increases. After several times of temperature cycles

the friction coefficient of the pile and soil interface remained basically unchanged

and the average shaft resistance of the pile-soil interface became more and more stable during the heating and cooling process.

关键词

Keywords

references

多次温度循环对能量桩桩顶位移影响分析 [J]. 孔纲强,王成龙,刘汉龙,吴迪,车平. 岩土力学 . 2017(04)

不同压实度下能量桩的热力学效应 [J]. 刘汉龙,王成龙,孔纲强,吴宏伟,吴迪. 中国科技论文 . 2016(13)

土热传导系数及模型的研究现状和展望 [J]. 张楠,夏胜全,侯新宇,王照宇. 岩土力学 . 2016(06)

U型、W型和螺旋型埋管形式能量桩热力学特性对比模型试验 [J]. 刘汉龙,王成龙,孔纲强,吴迪. 岩土力学 . 2016(S1)

能量桩桩-土接触面力学特性室内试验研究 [J]. 李春红,孔纲强,车平,孙学谨. 建筑节能 . 2016(03)

能源桩换热过程中结构响应原位试验研究 [J]. 桂树强,程晓辉. 岩土工程学报 . 2014(06)

循环液对能量桩性能的影响 [J]. 李飞跃,郑秀华. 建筑节能 . 2013(11)

能量桩工程应用研究进展及PCC能量桩技术开发 [J]. 刘汉龙,孔纲强,吴宏伟. 岩土工程学报 . 2014(01)

地源热泵桩基与钻孔埋管换热器换热性能比较 [J]. 桂树强,程晓辉,张志鹏. 土木建筑与环境工程 . 2013(03)

能量桩储热试验与数值模拟研究 [D]. 赵嵩颖. 吉林大学 2015

Experimental evaluation of using various renewable energy sources for heating a greenhouse [J] . Mehmet Esen,Tahsin Yuksel. Energy & Buildings . 2013

Views

415

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

Thermo-mechanical Properties of Pipe Energy Pile under Cycle Temperature Load

Reliability Design of Energy Pile Structure based on Improvement of G-functions

Analysis of Heat Transfer Performance of Energy Pile Considering Heat Capacity of Pile Body

Heat Transfer Simulation of Phase Change Energy Pile

Volume Deformation Behavior of Saturated Clay under Thermal Cycles

Related Author

孔纲强

黄旭

车平

白丽丽

宋怀博

裴华富

张培龙

杨军

Related Institution

No data

⁰