【摘要】 选取纵波作为研究对象,采用波函数展开法,推导了无限弹性介质中复合衬砌结构隧道在爆破地震波作用下动力响应问题的解析解,结合南京红山南路隧道群开挖工程开展了隧道结构动应力集中因数的敏感性分析,并通过曲线拟合分别得到了隧道围岩及内衬环向动应力集中因数随隧道结构动力学及几何参数变化的回归方程。分析结果表明:隧道围岩和二次衬砌层的弹性模量及围岩泊松比对考察点处环向动应力的影响较大,而初期支护层弹性模量的影响几乎可以忽略不计;衬砌层厚度变化对围岩环向动应力的影响要远大于内衬,在隧道施工设计时可以通过增加衬砌层的厚度平衡隧道结构的受力状态,但增加初期支护层的效果不如二次衬砌层。更多还原

【Abstract】 Primary waves were chosen as the study object,then an analytical solution for the dynamic response of tunnels with composite lining in infinite media under blasting seismic waves was deduced based on the wave function expansion method.According to the solution,the sensitivity of dynamic stress concentration factors to parameters was analyzed with the tunnel group excavation at Nanjing Hongshan South Road.By curve fitting,the regression equations were obtained for the hoop dynamic stress concentration factors of the surrounding rock and inner lining varied with the kinetic and geometrical parameters,respectively.The analysis result show that the elastic moduli of the surrounding rock and secondary lining and the Poisson’s ratio of the surrounding rock have more impact on the hoop dynamic stress at the observation points and the effect of the elastic modulus of the primary lining is negligible.The lining thickness change has greater influence on the hoop dynamic stress of the surrounding rock than on the inner lining.Increasing the lining thickness can balance the stress states of the tunnel structures in designs and constructions,but the effect by the thicker inner lining is not as well as that by the thicker secondary lining.更多还原