基于K?tter方程的盾构掘进面上被切削土体受力研究  被引量:4

Force states of soils under shield cutting in excavation face based on K?tter equation

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作  者:苏伟林 李兴高[1] 金大龙 SU Wei-lin;LI Xing-Gao;JIN Da-long(Key Laboratory of Urban Underground Engineering of Ministry of Education,Beijing Jiaotong University,Beijing 100044,China)

机构地区:[1]北京交通大学城市地下工程教育部重点实验室

出  处:《岩土工程学报》2019年第6期1058-1065,共8页Chinese Journal of Geotechnical Engineering

基  金:国家重点基础研究发展计划(“973”计划)(2015CB057800)

摘  要:为了计算不同土体性质与不同掘进参数下盾构刮刀与土体之间的作用力以及由此带来的切削扭矩,引入了修正后的Kotter方程作为补充方程,求解出开挖面上土体在被动切削至破坏时滑动面上的应力分布,建立了被切削土体受力模型,求解出刮刀刃面与土体之间的正压力P、摩擦力Q与侧向土体间抗剪阻力U,进而推导出刀盘切削扭矩T的计算公式。分析得到特定刀盘上刮刀的P, Q,U值随土体c,j值增大而增大,通过适当提高刮刀刃面粗糙度来增大摩擦可使土体更易被切至破坏;P, Q,U值随刀盘转速w增大而减小, P, Q随支护荷载p线性增大且p对于被切削土体受力的影响在砂性土中较大,最终给出特定刀盘掘进至部分种类土体中的切削扭矩值作为工程参考。To calculate the forces between shield scraper and soils as well as the cutting torque caused by them with different tunneling parameters in different soils, a modified Kotter equation is introduced as a supplement to solve the stress distribution on the sliding face when the soils in excavation face are being passively cut to a damage state. A mechanical model for cutting soils is established, and the pressure and friction between the soils and the surface of shield scraper and the lateral shear resistance are solved. Then the method for calculating the cutting torque of cutter head is derived. It can be acquired that the pressure, friction and lateral shear resistance increase with the cohesive force and internal friction angle and decrease with the rotation rate, which illustrates that a properly coarser scraper surface makes the soils easier to be cut, and a lower rotation rate can reduce the force of the tools. The pressure and friction increase linearly with the shield support pressure, which is more obvious in sand. Some cutting torques in different soil types are given as engineering references ultimately.

关 键 词:Kotter方程 盾构刮刀 被切削土体 滑动面应力 刀具受力 切削扭矩 

分 类 号:TU921[建筑科学—建筑设计及理论]

 

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