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真空预压-加热联合作用下竖井地基大变形固结模型OA

A large strain consolidation model of vertical drains foundation under vacuum preloading combined with heating

中文摘要英文摘要

采用分段线性差分法,建立了饱和土竖井地基真空预压联合加热大变形非线性固结模型RVTCS.该模型将土层径向热传导与大变形热固结相耦合,可以考虑固结过程中土体热应力和热膨胀、土体自重、径向和竖向渗流、时间相关的热源温度、非线性压缩性和渗透性关系、回弹再压缩效应,具有分析真空预压联合加热各种组合下的大变形热固结问题的能力.采用现有大型真空预压联合加热固结试验对该模型进行验证,沉降量的RVTCS数值解与室内试验结果吻合较好.通过算例分析,深入研究了不同组合工况下超静孔压、沉降量、固结度和温度的变化规律,真空预压联合加热能够显著提高土体的沉降量和固结速率.

A large strain nonlinear radial consolidation model RVTCS for saturated soil foundation under vacuum preloading combined with heating is developed by using piecewise-linear difference method.This model couples radial heat conduction in a soil layer with large-strain thermo-consolidation.It accounts for thermal stress and thermal expansion during consolidation,self-weight,radial and vertical seepage,time-dependent heat-source temperature,nonlinear relationships between compressibility and permeability,and rebound-recompression behavior.The model can analyze large-strain thermo-consolidation under various combinations of vacuum preloading and heating.The model is verified by large-scale vacuum preloading combined with heating consolidation test,and the RVTCS numerical solution of settlement is in good agreement with the indoor test results.The variation laws of excess pore water pressure,settlement,degree of consolidation,temperature and energy consumption under different combined conditions are deeply studied through the analysis of numerical examples.The combination of vacuum preloading and heating can significantly improve the settlement and consolidation rate of soil layer.

周亚东;吴松林;邢蓓琪;李玉龙

天津城建大学天津市软土特性与工程环境重点实验室,天津 300384天津城建大学天津市软土特性与工程环境重点实验室,天津 300384天津城建大学天津市软土特性与工程环境重点实验室,天津 300384天津市博川建设工程有限公司,天津 300350

建筑与水利

真空预压热固结饱和土大变形数值模型

vacuum preloadingthermo-consolidationsaturated soillarge strainnumerical model

《岩土力学》 2026 (2)

571-580,10

国家自然科学基金(No.51608351)天津市自然科学基金(No.25JCYBJC00380).This work was supported by the National Natural Science Foundation of China(51608351)and the Natural Science Foundation of Tianjin(25JCYBJC00380).

10.16285/j.rsm.2025.0127

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