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桩底注浆技术在公路工程中的应用研究 总被引:1,自引:0,他引:1
介绍了桩底注浆技术的方法原理、施工工艺、技术指标及承载力的确定方法,并通过实例讨论了该方法在公路工程中的应用前景及应用价值。 相似文献
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在复合地基中,为使桩与桩间土共同工作,必须调整桩土间的相对变形。本文提出在复合地基表面,基础与桩、桩间土之间设置褥垫层,通过褥垫层调整桩土间的相对变形,从而使桩土共同工作。本文通过对褥垫层的理论分析和实践数据,说明了褥垫层对复合地基变形的重要影响。 相似文献
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素混凝土桩(简称LC桩)复合地基,由于其适用范围广、造价低、效果好、效率高,近些年来在珠江三角洲广为采用。通过深圳某住宅区小高层建筑对厚层填土地基采用素混凝土桩加固处理的工程实例,对素混凝土灌注桩在回填土复合地基中的设计、施工和工后沉降进行了分析。 相似文献
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钻孔灌注桩的施工及监理浅析 总被引:1,自引:0,他引:1
从施工及监理的角度,较为详尽的阐述了钻孔灌注桩的施工技术及质量监理的要点,并对现阶段设计中存在的问题提出了意见。 相似文献
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结合规范及相关资料推导出桩基础在横向荷载作用下的挠曲微分方程并给出计算桩基础位移及内力的计算公式.公式的形式简单,方便用于桥梁桩基础计算. 相似文献
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文章基于灰色系统理论,应用其等时距GM(1,1)模型及改进的新陈代谢模型对桥梁群桩基础工后沉降进行预测,通过与蕴藻浜特大桥某墩的沉降观测资料的对比分析,提出了桥梁群桩基础工后沉降灰色理论预测方法。 相似文献
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Pan Y.Zheng J.Cui L. 《现代隧道技术》2018,(5):106-114
The additional pile responses due to the rheological behavior of the soil in the construction and operation periods of tunnelling are disadvantageous to the safety of the pile. However, among the current studies concerning with the rheological behavior of soft soil, the pile responses induced by the long-term settlement of 3D soil are seldom investigated. This paper mainly utilizes the finite difference software FLAC to discuss the pile response during excavation and operation periods considering rheological behavior of soft soil based on twostage analysis method. At the first stage, the displacement controlled method (DCM) is applied to simulate the short-time movement of soil during excavation period, the simulation results such as the shape of trough, pile responses such as pile deflection, settlement, axial force and bending moment are compared with the results of existing studies, and the numerical model is verified to be acceptable. At the second stage, the rheological behavior of soft soil is considered to estimate the long-term settlement of soil, the additional pile response is analyzed based on the CVISC model. Then, the influences of the four rheological mechanical parameters on the long-term soil settlement and pile responses are discussed and a fitting equation is proposed to estimate the long-term settlement of soil during the operation period. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved. 相似文献