透水管桩沉桩后桩周土体黏弹性固结分析

doi:10.13722/j.cnki.jrme.2023.0106

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摘要引入Merchant黏弹性本构模型模拟软土的应力–应变关系，采用半透水边界条件描述桩–土界面透水特性，同时考虑竖向和径向排水，建立透水管桩沉桩后桩周土体轴对称固结模型。借助分离变量法和拉普拉斯变换，推导得到桩周土体的孔压和固结度解析解。通过与现有解答进行对比，验证所得解析解的合理性。基于所得解答，开展参数敏感性分析，深入探究透水管桩沉桩后桩周土体的黏弹性固结特性。结果表明：半透水边界参数越大，桩周土固结过程越快，土体黏弹性对桩周土固结速度的影响越小；在固结初期，土体黏弹性对桩周土体固结行为的影响并不明显，而在固结后期，软土黏滞系数越大，独立弹簧与Kelvin体并联弹簧的模量比越大，桩周土固结速度就越慢。

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	董砺威1
	吴文兵1
	田乙1
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	梅国雄1
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	张云鹏1

关键词 ：桩基础, 透水管桩, 黏弹性, 超静孔压, 固结分析, 级数解答

Abstract：An axisymmetric consolidation model of soil around a permeable pipe pile after driving is established，where the stress-strain relationship of the soil is simulated with the Merchant viscoelastic constitutive model，the permeability of the pile-soil interface is described as a semi-semi-permeable boundary. The corresponding analytical solutions for the excess pore water pressure and consolidation degree of the soil are derived using the separation of variables and Laplace transform. Then，the rationality of present solutions is verified by comparing them with the existing solutions. Based on the present solutions，the parametric analyses are carried out to in-depth investigate the consolidation characteristics of the soil around a permeable pipe pile. The results show that a larger boundary parameter of the semi-permeable boundary results in a quicker consolidation of the soil around the pile，and leads to a smaller effect of the soil viscoelasticity on the consolidation rate of the soil；in the early stages，the effect of soil viscoelasticity on the consolidation behavior of the soil around the pile is not significant，while in the later stages，the greater the viscosity coefficient of the soil and the greater the modulus ratio of the independent spring to the paralleled spring in Kelvin body，the slower the consolidation rate of the soil around the pile.

Key words： pile foundation permeable pipe pile viscoelasticity excess pore pressure consolidation analysis series solution

引用本文:

董砺威1，吴文兵1，田乙1，2，梅国雄1，3，张云鹏1. 透水管桩沉桩后桩周土体黏弹性固结分析[J]. 岩石力学与工程学报, 2024, 43(S2): 4022-4031.
DONG Liwei1，WU Wenbing1，TIAN Yi1，2，MEI Guoxiong1，3，ZHANG Yunpeng1. Analysis on viscoelastic consolidation of soil around permeable pipe pile after pile driving. , 2024, 43(S2): 4022-4031.

链接本文:

https://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2023.0106 或 https://rockmech.whrsm.ac.cn/CN/Y2024/V43/IS2/4022

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