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钟祖良, 刁小军, 刘新荣. 长距离深埋岩石地层顶管摩阻力计算方法研究[J]. 岩土工程学报, 2022, 44(11): 2063-2070. DOI: 10.11779/CJGE202211012
引用本文: 钟祖良, 刁小军, 刘新荣. 长距离深埋岩石地层顶管摩阻力计算方法研究[J]. 岩土工程学报, 2022, 44(11): 2063-2070. DOI: 10.11779/CJGE202211012
ZHONG Zu-liang, DIAO Xiao-jun, LIU Xin-rong. Method for calculating frictional resistance of long-distance pipejacking in deeply buried rock strata[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(11): 2063-2070. DOI: 10.11779/CJGE202211012
Citation: ZHONG Zu-liang, DIAO Xiao-jun, LIU Xin-rong. Method for calculating frictional resistance of long-distance pipejacking in deeply buried rock strata[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(11): 2063-2070. DOI: 10.11779/CJGE202211012

长距离深埋岩石地层顶管摩阻力计算方法研究

Method for calculating frictional resistance of long-distance pipejacking in deeply buried rock strata

  • 摘要: 顶管法具有掘进效率高、安全环保、质量可靠等优点,在土质地层中得到广泛推广。为满足水利及市政工程快速建设的需求,顶管法也在岩石地层中进行应用,但对于长距离深埋岩石顶管摩阻力计算方法的研究较为匮乏。依托国内首个采用长距离岩石顶管法施工的重庆观景口水利枢纽工程,通过现场顶力测试试验研究发现,管节–围岩间摩阻力主要受管外间隙填充物和注入的润滑泥浆的影响,且前者的影响较大。根据顶管超挖间隙中沉渣填充程度的不同,提出了3种管节–围岩接触力学模型,并基于围岩弹塑性理论以及管节与填充物之间的协调变形,推导了各力学模型的顶管摩阻力计算公式。通过将摩阻力计算值与实测值对比,验证了摩阻力公式在岩石地层顶管顶力计算中的适用性。

     

    Abstract: The pipe jacking method has the advantages of high efficiency, safety, environmental protection and reliable quality, and is widely used in soil strata. In order to meet the demand for rapid construction of water conservancy projects and municipal projects, pipe jacking is also used in rocky strata, but there is a lack of research on the calculation of the frictional resistance of long-distance pipe jacking in deeply buried rock. Based on the first long-distance pipe jacking case in rock in China, Guanjingkou water conservancy project of Chongqing, through the field tests on jacking force it is found that the pipe- rock friction resistance is mainly affected by the filling of over-excavation gap and the injected lubricating mud, and the former has a greater impact. According to different degrees of the filling of the over-excavated gap with sediment, three mechanical models for the contact between pipe and rock are proposed, and based on the elastic-plasticity theory and the coordinated deformation between the pipe and the filling, the formulae for calculating the frictional resistance of the pipe are derived for each mechanical model. The applicability of the formulae for the frictional resistance in deeply buried rock strata is verified by comparing the calculated values of the frictional resistance with the measured ones.

     

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