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| ANALYTIC CONTINUATION SOLUTION OF DEEP TWIN-TUNNELS |
| SU Feng1,2,CHEN Fuquan1,SHI Youzhi3 |
(1. School of Civil Engineering,Fuzhou University,Fuzhou,Fujian 350002,China;2. Department of Geotechnical
Engineering,Tongji University,Shanghai 200092,China;3. School of Civil Engineering,Huaqiao University,
Quanzhou,Fujian 362021,China) |
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Abstract Considering the sequence of two-tunnel excavation,converting the underground space of tunnel to the case of elastic half-space under plane strain,an analytical solution is presented for stress and displacement of twin- tunnels with arbitrarily shape and size using analytic continuation method and Schwarz alternating method in an elastic half-plane. Because the depth is larger than the size of the tunnel,thus the effect of gravity gradient is ignored,and gravity loads are simplified as uniform normal loads along far-field boundary. As a special case,a close solution for stress and displacement field around circular twin-tunnels at great depth considering the influences of lining forces of tunnels is given. Circular twin-tunnels are subjected to uniform internal pressure and their construction sequences are properly taken into consideration. Comparison between the results of numerical analysis by two-dimensional finite element method and those from the closed solutions indicates that the closed solution is reliable and applicable for the stress and displacement field around the twin-tunnels at great depth.
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Received: 10 June 2011
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MAO Yuting1, 2, HE Manchao1, 2, LIU Fangzhou3, BAI Xing4, YANG Xiaojie1, 2, TAO Zhigang1, 2*. Development and application of a large-scale physical model system for tunnel creep testing[J]. , 2026, 45(6): 1627-1638. |
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2012, Vol. 31 
