深基坑开挖引起周边地表沉降的数值分析

对常用地表沉降计算方法进行了研究,在此基础上,引入可考虑初始应力场的有限元方法对某工程实例进行了计算分析,由结果可知,该法可较好地模拟由开挖卸载引起的基坑周围地表沉降量。

土-水特征曲线滞后现象的微观机制与计算分析

对吸湿与脱湿过程中引起非饱和土土-水特征曲线滞后性质进行机制分析,认为在微观角度看,接触角的差异是主要原因。基于热力学原理,假定粒间弯液面为一圆弧,综合考虑不等径颗粒半径比、接触角等因素,应用几何关系导得了两接触土颗粒填充角之间的迭代关系,并进行编程计算。在此基础上,引入热力学弯液面压强计算公式和水量体积计算公式,得到了不等径土颗粒间基质吸力-水量计算方法。应用该方法对不同接触角条件下的单个弯液面和不同堆积形式土粒的土-水特征曲线进行了解算,结果表明,由于接触角不同,土-水特征曲线具有明显的滞后现象;孔隙填充将引起低吸力状态土体含水率增加,其对松散颗粒影响较大,含水率可增大达90%;颗粒堆积形式及级配对接触角不同引起的滞后现象影响不大。此外,仅考虑接触角因素无法解释滞回圈的形成,其计算理论有待进一步深入研究。

基于VRML技术的工程力学实验教学探索

传统力学实验教学所需设备投入较大，常因资金短缺而影响课堂效果。为此，在分析工程力学实验教学特点和现状的基础上，将VRML虚拟现实技术引入到《工程力学实验》课程教学中，通过软件实现力学实验的操作过程，在课堂教学和实验教学过程中。学生可在模拟系统中掌握力学实验的基本操作和基本原理。实践证明谊辅助教学手段具良好的应用效果，并可以减少硬件设备的投入，其为工程力学实验课程改革提供了新的思路。

岩石脆延特性转化条件确定的统计损伤方法研究

针对Lemaitre应变等价性假说的局限性与不足,通过引进统计损伤理论,基于岩石三轴试验曲线,建立了能够反映脆延特性及其相互转化特征的岩石损伤统计本构模型。在此基础上,通过探讨岩石脆延特性及其相互转化的力学机理与特点,利用多元函数求全微分的分析方法,建立了岩石脆延特性相互转化条件的确定方法,它能同时反映岩石所受荷载情况与本身力学性质对岩石脆延特性及其相互转化特征的综合影响,试验结果与理论分析结果表明了本文研究成果的合理性与可靠性,进一步完善了岩石本构关系的研究内容。

基桩屈曲问题的大挠度摄动解

基于温克尔地基模型,采用能量法建立了两端铰支完全入土桩的大挠度微分方程.假设其挠曲函数及桩头荷载为摄动参数的幂级数展开式,采用二次摄动方法将非线性大挠度微分方程化为一系列线性摄动方程求解.在求得大挠度渐近解的基础上,通过摄动参数转换,得到以桩身挠度为摄动参数的后屈曲平衡路径高阶渐近解.最后,利用本文解答分析了桩长、地基土弹簧刚度、桩身抗弯刚度等因素对基桩临界荷载值及其后屈曲平衡路径的影响.结果表明,基桩屈曲临界荷载随桩土刚度比增大而提高,且较小的桩土刚度比对后屈曲平衡路径的稳定较为有利.

基于正态分布的土水特征曲线独立域滞后模型

首先对非饱和土土水特征曲线滞后现象的产生机理与影响因素进行了探讨,总结并分析了各类滞后模型的原理和优劣.在此基础上引入研究土水特征曲线滞后现象的独立域模型理论,根据非饱和土干湿循环过程各个阶段的特点,分别建立了干燥/浸湿边界曲线、干燥/浸湿扫描线的积分方案.然后假定水量分布函数在整体域上符合正态分布,建立了基于正态分布的土水特征曲线独立域滞后模型,并提出了相关的修正方法.最后将该方法应用到已有试验数据的分析中.研究结果表明,该方法可较好反映非饱和土土水特征曲线的滞后现象,根据具体的干湿过程改变积分路径,即可实现扫描线的解算.

考虑桩土共同作用的钢板桩支护结构计算研究

对有限单元法在钢板桩支护结构计算中的应用进行了探讨,并将其应用到某桥梁钢围堰设计计算,与简化计算结果的对比表明,未考虑桩土共同作用的简化计算方法使结构偏于不安全。

构建土力学实验教学新体系的研究与实践

本文根据土力学实验教学的特点和现状,结合以往教学改革的成果和经验,分析了实验教学中存在的问题,探讨了提高土力学实验教学效果的改革思路,在此基础上提出合理的实验教学模式与教学手段,并将其应用于实验教学。实践证明教学效果良好,该成果对于土力学实验课程改革以及实验教学体系的改革具有一定的实际意义。

深水钢板桩围堰结构内力的有限元计算研究

针对目前钢板桩深水围堰内力计算时,将入土处假定为完全嵌固这一简化条件与实际不符的问题,结合某特大桥钢板桩围堰工程,分别采用基于文克尔地基模型的平面有限元计算方法与三维有限元计算方法对其进行内力分析,并与简化计算结果对比,由此得出了一些有益的结论。

计入时效的桥台基桩负摩阻力解析计算方法研究

桥台地基土在填土荷载作用下产生的固结沉降,常引起基桩负摩阻力问题,深入研究其发展规律及计算方法十分必要。首先探讨了基桩负摩阻力特性及桩土相对位移计算方法,结合桥台工程特点,选用一维固结理论模拟桥台填土过程对地基土沉降量的影响。在此基础上,考虑桩土相互作用及土体的分层特性,基于荷载传递法导得基桩负摩阻力分段解析解,以此建立出可考虑时效的基桩负摩阻力计算方法。最后,结合某工程实例进行了计算分析,结果表明,该方法可较好描述地基土沉降发展过程及桩身荷载传递性状。

Nonlinear calculating method of pile settlement

To study calculating method of settlement on top of extra-long large-diameter pile, the relevant research results were summarized. The hyperbola model, a nonlinear load transfer function, was introduced to establish the basic differential equation with load transfer method. Assumed that the displacement of pile shaft was the high order power series of buried depth, through merging the same orthometric items and arranging the relevant coefficients, the solution which could take the nonlinear pile-soil interaction and stratum properties of soil into account was solved by power series. On the basis of the solution, by determining the load transfer depth with criterion of settlement on pile tip, the method by making boundary conditions compatible was advised to solve the load-settlement curve of pile. The relevant flow chart and mathematic expressions of boundary conditions were also listed. Lastly, the load transfer methods based on both two-broken-line model and hyperbola model were applied to analyzing a real project. The related coefficients of fitting curves by hyperbola were not less than 0.96, which shows that the hyperbola model is truthfulness, and is propitious to avoid personal error. The calculating value of load-settlement curve agrees well with the measured one, which indicates that it can be applied in engineering practice and making the theory that limits the design bearing capacity by settlement on pile top comes true.

Perturbation analysis on post-buckling behavior of pile

The nonlinear large deflection differential equation, based on the assumption that the subsoil coefficient is the 2nd root of the depth, was established by energy method. The perturbation parameter was introduced to transform the equation to a series of linear differential equations to be solved, and the deflection function according with the boundary condition was considered. Then, the nonlinear higher-order asymptotic solution of post-buckling behavior of a pile was obtained by parameter-substituting. The influencing factors such as bury-depth ratio and stiffness ratio of soil to pile, slenderness ratio on the post-buckling behavior of a pile were analyzed. The results show that the pile is more unstable when the bury-depth ratio and stiffness ratio of soil to pile increase, and although the buckling load increases with the stiffness of soil, the pile may ruin for its brittleness. Thus, in the region where buckling behavior of pile must be taken into account, the high grade concrete is supposed to be applied, and the dynamic buckling behavior of pile needs to be further studied.