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Rock rheology – time dependence of dilation and stress around a tunnel P. Ván HAS, Institute of Particle and Nuclear Physics and Montavid Research Group,

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Presentation on theme: "Rock rheology – time dependence of dilation and stress around a tunnel P. Ván HAS, Institute of Particle and Nuclear Physics and Montavid Research Group,"— Presentation transcript:

1 Rock rheology – time dependence of dilation and stress around a tunnel P. Ván HAS, Institute of Particle and Nuclear Physics and Montavid Research Group, Hungary Z. Szarka University of Miskolc, Institute of Mathematics and Montavid Research Group, Hungary – Poynting-Thomson: not one of the many – Unloading – rod – Unloading – circular tunnel – Conclusions EuRock’06, Liège

2 Rock rheology – the Poynting-Thomson modell balance of momentum Helmholtz free energy Universal – independent of microstructure

3 Entropy production Ideal elastic Small deformation Isotropic

4 Poynting-Thomson = Hooke+Kelvin-Voigt

5 Opening of 1D tunnel – released rod F l Three stages: primary: equilibrium is linear elastic Opening: new initial condition secondary: processes after the opening

6 A) Released rod – primary stage Elastic equilibrium F l p=F/A

7 B) Released rod – opening F l p=F/A Fast, “quasielastic” Finally:

8 V=(0.1,0.2,0.5,1,3,100) V=0.5 jump: t ε F l

9 B) Released rod – secondary Initial condition Finally: F l

10 Opening of a circular tunnel Three stages: primary: equilibrium is linear elastic opening: new initial condition secondary: processes after the opening p R r

11 Cylindrical symmetry

12 Initial conditions: Asymptotic condition:

13 Time dependent radial displacement: Time dependent deformation fields:

14 Radial displacement : G=10000MPa, K=30000MPa, p=1, R=1m, η=400000 MPah t=10h, α=9h β = 11h PT – jump PT – no jump Ideal elastic

15 Time dependent stress field:

16 jump Remark to the presentation of F. Sandrone, J.P. Dudt, V. Laiouse and F. Dexcoeudres Convergence (m) t (day)

17 Conclusions –Poynting-Thomson is not just one of them –Separate timescales: initial jump –Analytical solution can be generalized: elliptical, lining, etc. –Measurements of the material parameters – Numerics mesh: gradient generalization (thermodynamics!) – Practice: stops and starts in tunnel excavations swelling? F l

18 Thank you for your attention!

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