Experiment on Deformation Rule of Longitudinal Excavation Face of Composite Stratum Tunnel Based on DIC
Composite strata have an important effect on the stability control of excavation face in tunnel engineering.Aiming at the deformation regularity of tunnel excavation face in composite strata,the spatio-temporal evolution process of surrounding rock deforma-tion was analyzed through similarity model test,digital image correlation(DIC)measurement method and medium-sized loading test sys-tem,and mechanical model was established to explore the deformation and instability mechanism of the surrounding rock and excavation face of the tunnel with soft upper and hard lower.The results show that the spatial distribution characteristics of surrounding rock de-formation of tunnel in the composite strata is that deformation first occur at above surrounding rock of tunnel,the arch produces settle-ment,the horizontal cracks occur the inside and continue to expand,and the stress concentration occurs on the tunnel excavation face under load,which lead to collapse of excavation face and inside,and final instability failure of tunnel.Based on experimental observa-tion,the model of tunnel surrounding rock in different failure stages is simplified to reveal the deformation and failure evolution mecha-nism of tunnel excavation face in soft upper and hard lower strata.The strength of soft rock plays a key role in tunnel excavation in soft upper and hard lower strata.The failure of soft rock excavation surface is greater than that of hard rock,and the settlement of arch roof is greater than that of arch bottom.Therefore,the soft rock part should be considered when choosing the support method.
tunnel engineeringcomposite strataexcavation facedigital image correlationmodel test
万方数据
维普
