(a) Normal deformation of original joints (b) Tangential deformation of joints (c) Deformation of surrounding
rocksFigure 7: Numerical simulation results of the surrounding rock deformations.Slip possible
No slip(a) Original jointsCurrentFailure stshearate
Shear Tensiand le faitlensiurele
ElElastastic ic prev prev sheartens
Elastic strs om itted(b) Aphanitic joints(m)(m)755750745740Nonrelaxed Slighlty relaxed W eekly relaxed Stron gly relaxed5000 4000 3000 2000− 15 − 10 −50 5 101520(c) Relaxation zone of columnar jointsFigure 8: Relaxation zones of joints after excavation of the first layer.wave velocity and by modeling on the rock mass integrity
evaluation system, a relaxation coefficient of rock mass푘is
established:
푘=V^0 푝−V푝
V^0 푝
, (6)
wherekis the coefficient of relaxation,V푝is the velocity of
longitudinal wave of rock mass at the testing position, andV^0 푝
is the eigen wave velocity of nonrelaxed rock mass.
In order to distinguish the relaxation degree of rock mass
in a more detailed manner, the relaxation degree of columnar