江阴长江公路大桥

江阴长江公路大桥江阴长江公路大桥
  1. 江阴长江公路大桥北锚碇模型试验研究

    Experimental Study on the North Anchorage of the Jiangyin Yangtze Bridge

  2. 江阴长江公路大桥特大型沉井施工述评

    The Construction of the Large Caisson in Jiangyin Highway Bridge

  3. 江阴长江公路大桥和泰州经济的集聚

    Jiangyin Changjiang River Highway Bridge and Taizhou Economy Agglomeration

  4. 江阴长江公路大桥钢桥面铺装设计

    Pavement Design of Yangtze River Highway Bridge in Jiangyin

  5. 江阴长江公路大桥综述

    A General Account of Jiangyin Yangtze River Highway Bridge

  6. 江阴长江公路大桥南索塔施工

    The Construction of the South Cable Tower on the Yangtze River Highway Bridge at Jiangyin

  7. 江阴长江公路大桥钢箱梁制造的进度控制

    Control of Progress Schedule of the Manufacture of Steel Box Girders of Jiangyin Changjiang Highway Bridge

  8. 天顶方向法及其在江阴长江公路大桥北塔柱施工测量中的应用

    Plumb Direction Method and Its Application to Setting-up Survey for North Pillar of Jiangyin Changjiang Bridge

  9. 江阴长江公路大桥塔墩和锚锭的场地设计地震动工程参数

    Parameters of designed seismic shaking for tower pier and anchorage sites at highway bridge over Changjiang in Jiangyin

  10. 江阴长江公路大桥结构健康监测升级改造工程研究

    Analysis and Investigation the Upgrading and Modifying Project of Jiangyin Bridge Structural Health Monitoring ( SHM ) System

  11. 江阴长江公路大桥大体积砼温度控制技术

    The Temperature Control Technology for Large Volume Concrete Adopted in the Construction of the Yangtze River Highway Bridge at Jiangyin

  12. 介绍江阴长江公路大桥A标工程塔墩、锚碇、引桥工程的施工方案和施工质量。

    Construction scheme and construction quality of tower , anchor and approach bridge for Bid-A project of Jiangyin Yangtze River Highway Bridge are introduced .

  13. 以主跨1385米的江阴长江公路大桥为背景,研究利用环境振动测量值进行悬索桥结构有限元模型修正的可行性。

    This paper presents the implementation of the finite element ( FE ) model updating for a newly constructed long span supension bridge using ambient vibration measurements .

  14. 以江阴长江公路大桥北锚碇为例,首先阐述了锚碇地基土孔隙水压力观测和渗透性分析的意义。

    The importance to monitor the pore water pressure and to study the permeability of soil under the north anchorage of Jiangyin Yangtze River Highway Bridge is analyzed firstly .

  15. 在江阴长江公路大桥地基基础稳定性分析方面,建立了合理的概化地质模型与三维非线性有限元分析模型,分析了地基基础的稳定性。

    2 , About the stability analysis of JiangYin Bridge foundation , the geological model and nonlinear FE model are established , and the stability of foundation is analyzed .

  16. 结合江阴长江公路大桥结构健康监测系统升级改造项目,采用拉绳式位移传感器实时监测大桥主梁的纵向运动,并依据实测数据进行梁端位移变化和运动同步性的统计分析。

    Based on the improvement project of structure assessment and monitoring system for Jiangyin Yangtze River Bridge , the displacement of the main girder and synchronization of the movements are presented .

  17. 介绍了江阴长江公路大桥北塔上的雷电流监测系统,以及本测量系统的标定、系统的模拟实验等问题。

    For this purpose , a full waveform measuring system was set up on north towers of Jiangyin Highway Bridge . The calibration to this system is introduced and the test results of simulating lightning currents are given .

  18. 针对大体积混凝土的特点,介绍江阴长江公路大桥锚碇、索塔承台大体积混凝土温度控制的施工技术。

    In the light of the characteristics of large volume concrete , this paper introduces the temperature control technology for large volume concrete of anchorage and the pile cap of the cable tower of the Yangtze River Highway Bridge at Jiangyin .

  19. 重点对非线性有限元的求解、最不利滑动面的迁移、监测系统的设计等方面进行了理论研究,并且将理论研究的成果应用于江阴长江公路大桥南岸山体及地基基础的稳定性分析与监测。

    The solving of nonlinear FE , the searching of sloping surface and the designing of monitoring system are researched in detail , and the fruits of theory research are applied to analyze and monitor the stability of the foundation of JiangYin Bridge .

  20. 介绍江阴长江公路大桥北塔承台大体积混凝土的温控设计、温控标准和温控措施,通过对现场施工时的温度监测和一年多的使用,表明温控效果良好。

    The design , standard and measures of temperature control for large-area concrete of north tower 's cushion cap of Jiangyin Yangtze River Highway Bridge are introduced . The temperature monitoring during site construction application of more than one year indicates that the temperature control effect is good .