论文信息 - A model for swelling rock in tunnelling

A model for swelling rock in tunnelling

SummaryIn this paper, the phenomenon of swelling in tunnelling will be treated as a hydraulic-mechanical coupled process. This approach allows one to model the observed floor heaves realistically, i. e. without the prediction inevitable in the previous models of movements at the tunnel crown and walls. Furthermore, the development of heave and pressure over the course of time can be studied. The absence of deformations above the floor level is here interpreted as a consequence of the hydraulic boundary conditions. Besides the importance of seepage flow, the influence of rock strength is illustrated. Swelling rock is considered as an elastoplastic material. This allows one to predict the often large haaves of a tunnel floor as observed in situ. According to the numerical results, the area of practically relevant swelling strains extends as far as the plastic zone.

G. Anagnostou | Georg Anagnostou | G. Anagnostou

[1] M. Biot. General Theory of Three‐Dimensional Consolidation , 1941 .

[2] G. Marsily. Quantitative Hydrogeology: Groundwater Hydrology for Engineers , 1986 .

[3] G. Anagnostou,et al. Untersuchungen zur Statik des Tunnelbaus in quellfähigem Gebirge , 1991 .

[4] W. T. Koiter. Stress-strain relations, uniqueness and variational theorems for elastic-plastic materials with a singular yield surface , 1953 .

[6] M. Gysel,et al. Design of tunnels in swelling rock , 1987 .

[7] K. Terzaghi,et al. Rock tunneling with steel supports , 1946 .

[8] J. Z. Zhu,et al. The finite element method , 1977 .

[9] Kalman Kovári,et al. Design/Construction methods – Tunnelling in swelling rocks , 1988 .

[10] G. I. Barenblatt,et al. Basic concepts in the theory of seepage of homogeneous liquids in fissured rocks [strata] , 1960 .

[11] C. Desai,et al. A residual flow procedure and application for free surface flow in porous media , 1983 .

[12] W. G. Holtz,et al. Engineering Properties of Expansive Clays , 1956 .

[13] K. Terzaghi. Erdbaumechanik : auf bodenphysikalischer Grundlage , 1925 .

[14] J. Altenbach. Zienkiewicz, O. C., The Finite Element Method. 3. Edition. London. McGraw‐Hill Book Company (UK) Limited. 1977. XV, 787 S. , 1980 .