基于有限介质孔扩理论的桩基承载力预测方法研究
摘要:挤土桩在沉桩过程中的挤土效应对其承载力有明显的提高作用,基于有限介质弹塑性小孔扩张理论提出一种新的挤土桩承载力的计算方法。通过Mohr-Coulomb屈服准则推导了有限介质球形孔和柱形孔扩张的统一解析解,分析了打桩过程中的贯入挤土作用,并建立了桩基承载力的计算模型。结果表明:小孔扩张过程中具有明显尺寸效应,对于柱形孔扩张,当外内径比大于110时,有限土体扩张的内壁孔压和塑性区范围与无限土体扩张的大致相同;球形孔土体外内径比大于25时与无限土体扩张曲线一致;将桩端部分简化为球形孔扩张模型,桩侧部分假设为柱形孔扩张模型,求解得到了沉桩施工中桩周土体的应力场变化及成桩后桩基承载力值。桩基承载力计算结果与现有理论解、规范计算值和工程现场实测值进行对比,验证了本文方法的可靠性,为挤土桩的承载力预测提供了一种新的计算方法。
Abstract:Installation of displacement pile could significantly increase the bearing capacity of pile foundation, and a new analytical method for bearing capacity prediction of displacement pile is proposed based on the elastic-plastic cavity expansion solution in finite soil medium. Mohr-Coulomb yield criterion is used to derive the unified analytical solution for both cylindrical and spherical cavities, assuming the pressure is remained constant at the outer boundary. The solutions are then adopted to analyze the penetration of precast pile, and a mechanical model for pile bearing capacity is constructed. The results show that scale effect is important for cavity expansion. For cylindrical cavities, the cavity pressure and the plastic zone of a finite medium with outer/inner radius ratio greater than 110 is similar to that of infinite medium, whereas the soil expansion curve is comparable for spherical scenarios with outer/inner radius ratio larger than 25. The mechanical model assumes the spherical cavity expansion at the pile end, and pile shaft is taken as cylindrical cavity expansion, which provides the changes of stress field during displacement pile installation and the bearing capacity. The magnitude of pile bearing capacity is compared with existing solution, standard design value, and measured data from field test, validating the proposed novel cavity-expansion based method.
中文标题:
基于有限介质孔扩理论的桩基承载力预测方法研究
Study on the Prediction Method of Pile Foundation Bearing Capacity Based on Finite Medium Cavity Expansion Theory
作者:
莫品强1,,刘尧1,高新慰1,,,章正2
Mo Pinqiang1,,Liu Yao1,Gao Xinwei1,,,Zhang Zheng2
作者简介:莫品强,男,1988年生,汉族,浙江温州人,博士,副研究员,主要从事土力学等研究工作。E-mail:pinqiang.mo@cumt.edu.cn通讯作者:高新慰,男,1995年生,汉族,河南新乡人,硕士,主要从事土力学等研究工作。E-mail:1273295465@qq.com
通讯地址:
1.中国矿业大学 深部岩土力学与地下工程国家重点实验室 力学与土木工程学院,江苏徐州 221116 2.中冶集团武汉勘察研究院有限公司,湖北武汉 430080
1.StateKeyLaboratoryforGeoMechanicsandDeepUndergroundEngineering,SchoolofMechanicsandCivilEngineering,ChinaUniversityofMiningandTechnology,Xuzhou221116,Jiangsu,China 2.MCCWuhanSurveyResearchInstitute,Wuhan430080,Hubei,China
中图分类号:TU 473
doi:10.3969/j.issn.1007-2993.2022.01.001
出版物:岩土工程技术
收稿日期:2020-12-22
刊出日期:2022-02-16
关键词:小孔扩张理论,挤土桩,承载力,弹塑性本构,挤土效应
Key words:cavity expansion method,displacement pile,bearing capacity,elastic-plastic model,squeezing effect
文档包含图片数量:图片(8)张
文档包含表格数量:表格(2)个
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基金项目:
基金项目:国家自然科学基金(51908546);中国博士后科学基金面上项目(2020T130699)
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