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Analytical computation of support characteristic curve for circumferential yielding lining in tunnel design 被引量:5
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作者 Kui Wu Zhushan Shao +2 位作者 Mostafa Sharifzadeh Siyuan Hong Su Qin 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2022年第1期144-152,共9页
Circumferential yielding lining is able to tolerate controlled displacements without failure,which has been proven to be an effective solution to large deformation problem in squeezing tunnels.However,up to now,there ... Circumferential yielding lining is able to tolerate controlled displacements without failure,which has been proven to be an effective solution to large deformation problem in squeezing tunnels.However,up to now,there has not been a well-established design method for it.This paper aims to present a detailed analytical computation of support characteristic curve(SCC)for circumferential yielding lining,which is a significant aspect of the implementation of convergence-confinement method(CCM)in tunnel support design.Circumferential yielding lining consists of segmental shotcrete linings and highly deformable elements,and its superior performance mainly depends on the mechanical characteristic of highly deformable element.The deformation behavior of highly deformable element is firstly investigated.Its whole deforming process can be divided into three stages including elastic,yielding and compaction stages.Especially in the compaction stage of highly deformable element,a nonlinear stress-strain relationship can be observed.For mathematical convenience,the stress-strain curve in this period is processed as several linear sub-curves.Then,the reasons for closure of circumferential yielding lining in different stages are explained,and the corresponding accurate equations required for constructing the SCC are provided.Furthermore,this paper carries out two case studies illustrating the application of all equations needed to construct the SCC for circumferential yielding lining,where the reliability and feasibility of theoretical derivation are also well verified.Finally,this paper discusses the sensitivity of sub-division in element compaction stage and the influence of element length on SCC.The outcome of this paper could be used in the design of proper circumferential yielding lining. 展开更多
关键词 Squeezing ground Circumferential yielding lining Highly deformable element support characteristic curve(SCC) Analytical method
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Physical model test on the support characteristic for quasi-NPR bolt under asymmetric stress
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作者 Wei Ming Xiaojie Yang +3 位作者 Yadong Mao Xiang Wang Manchao He Zhigang Tao 《Underground Space》 SCIE EI CSCD 2023年第4期46-62,共17页
With the continuous increase in tunnel construction,the significant deformation of the surrounding tunnel rock is often difficult to predict and control.In addition,the lithology,structure,and various asymmetric large... With the continuous increase in tunnel construction,the significant deformation of the surrounding tunnel rock is often difficult to predict and control.In addition,the lithology,structure,and various asymmetric large deformation of surrounding rock mass during operation and maintenance severely affect the ultimate bearing and stability of the tunnel.To explore the deformation mechanisms and failure modes of surrounding rock under large asymmetric stress and complex geological conditions,a physical model of a tunnel through granite was constructed based on the similarity theory.The model had 30°dip lithology under asymmetric stress and was emplaced a new quasi-negative Poisson’s ratio(NPR)bolt.By analyzing the variation law of displacement and axial force of the bolt under an asymmetric load,the asymmetric deformation and failure mechanism of the granite tunnel and the support effect of the quasi-NPR bolt were determined.The energy absorbed by the surrounding rock was analyzed,and the influence mechanism and control countermeasures of asymmetric stress on the granite tunnel were explored.This work provides a reference for the design of asymmetric support of tunnels with similar engineering backgrounds. 展开更多
关键词 Asymmetric stress Physical model test Quasi-NPR bolt support characteristic
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Simulation and experimental study on lubrication characteristics of vertical hydrostatic guide rails 被引量:8
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作者 张艳芹 Yu Zeyang +3 位作者 Chen Yao Shao Junpeng Yu Xiaodong Jiang Hui 《High Technology Letters》 EI CAS 2014年第3期315-320,共6页
In order to improve the cutting stiffness,the paper studies the vertical hydrostatic bearing in the slide when a ram is in feed process.The change of the oil film thickness on hydrostatic guide rail and the curve of t... In order to improve the cutting stiffness,the paper studies the vertical hydrostatic bearing in the slide when a ram is in feed process.The change of the oil film thickness on hydrostatic guide rail and the curve of the oil film thickness in various cutting forces are calculated and a relation model through theoretical analysis method is derived.The pressure field of the guide rail recess is simulated based on the finite volume method and demonstrated through experiments.The study is of vital theoretical significance for the improvement of machining accuracy of numerical control machines and the entire computer numerical control(CNC) equipment and provides valuable theoretical basis for the design of hydrostatic guide rail in engineering practice. 展开更多
关键词 hydrostatic bearing oil pad supporting characteristics finite volume method
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Simulation and experimental analysis of supporting characteristics of multiple oil pad hydrostatic bearing disk 被引量:15
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作者 张艳芹 范立国 +2 位作者 李锐 戴春喜 于晓东 《Journal of Hydrodynamics》 SCIE EI CSCD 2013年第2期236-241,共6页
To study the heavy hydrostatic bearing with multiple oil pads, a reasonably simplified model of the pad is put forward, and the mathematical model of the bearing characteristics of the multiple oil pad hydrostatic bea... To study the heavy hydrostatic bearing with multiple oil pads, a reasonably simplified model of the pad is put forward, and the mathematical model of the bearing characteristics of the multiple oil pad hydrostatic bearing is built with consideration of variable viscosity. The pressure field in the clearance oil film of the hydrostatic bearing at various velocities is simulated based on the Finite Volume Method (FVM) by using the software of Computational Fluid Dynamics (CFD). Some pressure experiments on the hydrostatic bearing were carried out and the results verified the rationality of the simplified model of the pad and the validity of the numerical simulation. It is concluded that the viscosity has a great influence on the pressure in the heavy hydrostatic bearing and cannot be neglected, especially, in cases of high rotating speed. The results of numerical calculations provide the internal flow states inside the bearing, which would help the design of the oil cavity structure of the bearing in engineering practice. 展开更多
关键词 hydrostatic bearing oil pad supporting characteristics Finite Volume Method (FVM)
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