Study on the Mechanical Characteristics and Ground Surface Settlement Influence of the Rise-Span Ratio of the Pile-Beam-Arch Method

The pile-beam-arch method (PBA) method is increasingly being used in the construction of metro stations with complex traffic conditions. The rise-span ratio of the arch not only affects the height of the station, but also affects the rationality of the design of subway stations and the safety of construction. The mechanical response of steel pipe piles with different rise-span ratios and the effect of controlled surface settlement have been investigated in the interactions involved in pile-soil system. In this paper, the finite element model of each rise-span ratio was established, and the rationality of the model was demonstrated by comparing the numerical simulation calculation with the field surface settlement monitoring data. The mechanical characteristics and influence analysis of the surface deformation during the excavation of the cave pile method were investigated. The results show that the maximum axial force of the central pile first decreases and then increases with the increase in the rise-span ratio. The maximum bending moment of the arch decreases as the rise-span ratio increases, and the maximum axial force of the arch is negatively correlated with the rise-span ratio. The maximum axial force of the central pile is located at the bottom plate. Due to the symmetry of the structure, the bending moment of the centre pile is small, but the maximum bending moment of the whole station is located at the side wall of the bottom plate. As the rise-span ratio increases, the surface settlement first decreases and then increases. The construction of the pilot tunnel and the upper arch is the most important factor leading to the surface settlement, so it is necessary to strengthen the soil layer.