排序方式: 共有321条查询结果,搜索用时 15 毫秒
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为解决地下工程中叠合结构接触面采用常规凿毛等方式进行预处理时存在的施工难度大、剪力槽设置参差不齐等难题,提出一种便于施工的预制叠合结构形式,然后运用ANSYS有限元软件对波浪形、三角形以及梯形波纹结构面进行受力对比分析,结果表明梯形结构面在结构应力、接触面压力以及接触面滑移方面更有优势,并确定梯形结构面作为静力荷载试验方案。通过静力荷载试验对比分析整体现浇梁和梯形结构面叠合梁在各级荷载作用下的挠度、水平位移以及裂缝开展形态,结合实测数据表明: 在受到相同荷载作用下,叠合梁的挠度增量小于整体现浇梁,同时叠合梁在裂缝开展阶段存在停滞现象,能够减缓裂缝穿过叠合面,从而提高结构的整体承载力。 相似文献
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The improvement in the operation speed of the transportation project means the progress and development of the construction technologies in transportation projects. In this paper, the following factors restricting the further improving of the speed of high speed railway are analyzed: as the operation speed increases, the trains in the dense atmosphere are subject to the wind induced resistance and various resistances caused by the friction between the wheels and the rails and by the irregularity of tracks, and the noise will also increase with a high power. Therefore, the economy and safety issues involved in the operation have become the main factors restricting the further improving of the speed of high speed railway. A scheme of vacuum pipelines of underwater vacuum tunnel and/or subwater bridge is proposed in this paper: the pipelines and cars are sealed and vacuated to form the quasi vacuum. The transportation system of the vacuum maglev train at ultrahigh speed with the HTS maglev technology can achieve the operation speed more than 4 times that of the existing HSR train (about 1 200 km/h). Key technologies for constructing the vacuum maglev tunnels/subwater bridges in respect of construction plans, vacuating and sealing, as well as maglev trains are introduced in this paper. The subjects to be further studied on the vacuum HTS maglev tunnels (pipelines) are analyzed from the aspects of technology, management, construction costs, operation expenses, candidate project, airtight materials for cars and evacuation in case of emergencies. It is recommended that "cross sea maglev train in vacuum tunnel" should be developed in the eco tourism project between the coastal cities and their neighboring islands and a series of necessary technical tests should be conducted during the trial operation, so as to obtain related experience. Based on the experience and lessons learned, the transportation system at ultrahigh speed may be implemented for strait crossing projects in China. Finally, a brief introduction to the research on HSR trains at ultrahigh speed in countries such as China, the United States and the Netherlands is presented in this paper. The development of vacuum pipeline transportation can drive the development of China′s transportation modes in a faster, safer and more energy efficient manner, facilitating the development of the fifth generation of transportation industry and its driving role in the social and economic development, and promoting the integration and progress of the economy of China or even the world at a higher speed. 相似文献
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《铁路隧道设计规范》中的深埋围岩压力公式没有考虑隧道拱部围岩本身的承载作用以及超前预支护作用,荷载计算结果偏大。为验证深埋隧道初期支护结构实际承受的围岩压力荷载,以蒙华铁路三门峡至荆门段现场监测数据为依托,通过分析围岩变形监测资料,探讨蒙华铁路隧道围岩及结构在隧道开挖过程中的变形行为,并采用拱顶沉降与水平收敛相结合的位移反分析法,建立荷载-结构法平面有限元模型,反演推导围岩压力荷载。分析结果表明:双线隧道反分析得出的围岩荷载为同级别按规范计算值的70.7%~76.5%;单线隧道反分析得出的围岩荷载为同级别按规范计算值的88.8%~93.1%。研究成果对蒙华铁路隧道现场施工和优化支护结构设计起到了很好的指导作用,希望能对以后类似隧道工程的设计和施工提供参考。 相似文献
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大路梁子隧道治水综述 总被引:2,自引:1,他引:1
刘小刚 《铁道标准设计通讯》2010,(4):89-92
针对大路梁子隧道洞内涌水特点,对石灰岩地段岩溶裂隙水及岩溶突水采取了"以堵为主、限量排放"的治水原则,对"宽富带"构造裂隙水采取"以排为主、排堵结合"的治水原则后,隧道涌水减小,保证了施工安全。隧道贯通后,采取泄水洞进行系统引排,减轻了水沟的排水压力,提高了后期运营的可靠性。 相似文献
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盾构在软土深部地层进行主动开挖时,开挖所采取的地层损失率差异,会使得深部地层土体产生不同的位移以及应力变化,从而对软土深部地层的主动土拱效应产生差异影响。通过调整计算模型中的主动开挖土体范围,设定7种不同的地层损失率,建立地层损失与软土主动土拱效应比例之间的对应关系。通过分析可得: 1)盾构在4倍直径埋深条件下进行主动开挖时,在隧道上方1~2倍直径范围内形成主动土拱作用区域; 2)主动开挖所采取的地层损失率越大,开挖后拱顶处所受到的主动土压力荷载越小,土拱效应发挥越充分,且当地层损失率到达一定值时,盾构开挖所产生的主动土拱效应比例逐渐趋近于稳定临界值。 相似文献
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基于BIM的公路隧道运维管理系统设计与开发 总被引:1,自引:0,他引:1
近年来,我国公路隧道建设里程快速增长,但在隧道运维管理中存在技术落后、管理人员配置不足等问题。针对管理中存在的问题,本文提出将BIM(building information modeling,建筑信息模型)引入公路隧道的运维管理,通过制定具体实施规划及设计系统架构,实现可视化的公路隧道运维管理。以浙江省41省道岭下隧道工程为依托,建立基于BIM的公路隧道运维管理平台,为公路隧道运维管理提供一种直观、便捷的管理方式,提高公路隧道的信息化管理水平。 相似文献
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小直径盾构施工中管片纵向应力监测研究 总被引:1,自引:0,他引:1
为了探索小直径盾构法隧道在施工过程中管片纵向应力的变化规律,对北京槐房再生水厂污水隧道管片纵向应力进行了现场监测:将第976环、第1 054环管片分别设为第1和第2监测断面,2监测断面各预埋5个纵向应力计,各监测断面从本监测断面管片安装后即开始监测,当盾构掘进至第1 129环时停止监测。研究表明:1)在管片离开盾尾50环后,其纵向应力波动值小于管片拼装期间应力值的5%。2)在盾构掘进期间,管片距离盾构越远,其纵向压应力值越小。3)在管片拼装期间,管片距离盾构越远,其纵向压应力经历了先增大后减小的过程。4)管片距离盾构108环后,该管片纵向压应力趋近于0.2~0.3 MPa。5)随着盾构推进,管片纵向应力经历了4个阶段的变化过程,即周期性剧烈波动阶段—动态稳定阶段—逐渐衰减阶段—趋于稳定阶段。 相似文献