Numerical simulation of the consolidation process during the excavation of deep tunnels in cohesive materials and influence of the excavation time on the front characteristic curve. When tunnels are excavated in cohesive soils, the mechanical response of the system is significantly affected by the consolidation process taking place in the soil domain. In this paper, the influence of the consolidation process on the mechanical response of the front is studied. To this purpose, a series of three-dimensional non-linear finite element was performed. In these analyses, (i) the influence of the excavation rate and (ii) the evolution of displacement during excavation standstill are investigated. The mechanical response of the front is analysed by employing the front characteristic curve, defined in analogy with the well-known cavity characteristic curve.