土钉墙在强透水地层的实践

以一个基坑工程实例介绍了土钉墙在强透水地层中的应用。通过对施工过程及监测数据的分析,总结了土钉墙支护方式在强透水地层的可行性及局限性。     

高压防渗帷幕技术在地基防渗和断桩处理中的应用

通过地基防渗和断桩处理工程实例,介绍了应用高压防渗帷幕技术的设计方案和施工要点。     

软基上的空心方块斜坡堤

根据实际工程需要,提出了一种适宜建造在软土地基上的新的空心方块斜坡堤型式。这种新型结构是利用各空心方块之间以及空心方块本身的空隙,降低堤身单位体积的重量以及堤身断面总重量,从而满足软土地基承载力和整体稳定的要求：结合长江口深水航道治理工程的北导堤堤头部位2．6km长的软基段,对空心方块斜坡堤的设计和试验研究情况作概要介绍。     

Finite element analysis of reinforced embankment foundation

A finite element analysis of a reinforced embankment-foundation system has been conducted using a coupled formulation and elastoplasticity theory. Such important factors as type of reinforcement, the type of clay, depth of foundation and drainage condition affecting the system have been systematically investigated using appropriate constitutive models to depict various components of the system and material parameters of two typical soft clay deposits found in India. The displacements, reinforcement force and maximum heights of the embankments are among the aspects presented and discussed. It is shown that the effectiveness of the reinforcement is dependent on its stiffness and the shear strength of the clay deposit. The foundation depth has significant effect on the nature and magnitude of displacement, the reinforcement force and the height of embankment. Drainage conditions are shown to markedly influence the effectiveness of reinforcement. Copyright © 1999 John Wiley & Sons, Ltd.     

Predictive modeling of the permafrost thermal regime in Russian railroad subgrade support systems

The goal of a predictive thermotechnical calculation is to model the behavior of the top permafrost boundary under current operational conditions as well as increasing average annual air temperatures that results in degradation of the permafrost layer. Numerical modeling was used to assess the efficient application of construction measures to create sustainable operation of the railroad. The numerical modeling was carried out in the programming complex FEM-models developed by geotechnical engineers of St. Petersburg, Russia under Prof. V. M. Ulitsky’s guidance. The Termoground Program as a part of the FEM-models enables the research of freezing, heaving and thawing in different design solutions. Research was carried out in space resolution for a year cycle. The performed model has shown that the designing measures accepted for permafrost protection from retreat in the subgrade support were generally effective.     

既有建筑物地下室增层开挖桩基屈曲稳定研究

既有建筑物地下室增层开挖可有效利用地下空间,是目前改善停车难问题的主要手段之一。既有建筑地下室增层开挖将改变原有桩基础的受力性状,从而可能引起原有桩基础屈曲失稳。提出一种预测地下室增层开挖既有桩基失稳的临界荷载及稳定计算长度的理论解法。首先,结合浙江饭店地下室增层开挖工程,简单介绍增层开挖方案。之后,通过Winkler弹性地基梁理论建立增层开挖工况下单桩基础桩-土体系总势能方程。最后,利用最小势能原理导得增层开挖工况下单桩基础屈曲失稳的临界荷载及稳定计算长度的表达式。在此基础上,研究了桩身临界荷载的影响因素。计算结果表明：随着半波数n的增加,既有桩基的临界荷载逐渐收敛;既有桩基的临界荷载随开挖深度的增大而急剧减小。分析结果可为类似地下室增层开挖工程的设计提供依据,减少开挖引起既有桩基础失稳隐患。     

桶形基础沉贯室内模型试验研究

桶形基础采用负压沉贯法施工,其贯入阻力与压桩,打桩等施工方法显著不同。本文介绍了在粉土和粉质粘土地层中的一组模型试验情况,认为负压法施工可显著降低粉土的抗贯阻力,但在粉质粘土中减阻效果不明显。     

软弱地基码头的快速建造方法

文中介绍了软基快速建造码头的方法与技术。在含水量高、孔隙比大、渗透系数小、埋藏深厚、承载力与抗剪强度低、灵敏度高的软弱地基上,采用软基快速筑堤方法和鲎式硬壳堤坝技术,22 d时间完成码头建造,投入使用1 a多时间,一直未出现裂缝等问题。     

1998年洪水成因分析及防灾减灾对策

分析了１９９８年大兴安岭地区大洪水的成因,主要是厄尔尼诺事件,大气环流异常,客站来水量大,地区小气候,生态平衡受到严重破坏等因素影响。提出了成功预报依据,探讨了防洪抗洪的对策。     

高层建筑深基坑降水方案的选择与应用

随着城市化进程的发展,高层建筑的增多,产生了众多形态的大基坑,为了防止基坑倒塌、避免不良水文地质现象、维护施工安全、保证基坑施工质量,基坑降水施工是高层建筑基坑工程的一个关键部分,有待不断的研究探索。文章以理论联系实践为研究方法,首先从优缺点、适用范围等方面比较分析了各种基坑降水方法,在此基础上,着重通过相关实例对高层建筑深基坑降水方案的选择应用进行分析,为相关建筑工作提供借鉴。