A novel criterion for yield shear displacement of rock discontinuities based on renormalization group theory

Research on the plastic shear deformation of rock discontinuities is essential to the structural design of rock engineering, and the yield point is an important indicator for plastic shear deformation. In this paper, a conceptual model based on renormalization group theory is proposed to qualitative...

Full description

Saved in:
Bibliographic Details
Published in:Engineering geology 2023-03, Vol.314, p.107008, Article 107008
Main Authors: Xie, Shijie, Lin, Hang, Duan, Hongyu
Format: Article
Language:English
Subjects:
Critical failure point
Renormalization group theory
Rock discontinuities
Shear deformation
Yield point
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Research on the plastic shear deformation of rock discontinuities is essential to the structural design of rock engineering, and the yield point is an important indicator for plastic shear deformation. In this paper, a conceptual model based on renormalization group theory is proposed to qualitatively explain the evolution mode of shear deformation. Then, considering the stress transfer mechanism, the mathematical description of the critical failure point is derived. Subsequently, the criterion for yield shear displacement is obtained by combining the renormalization group model with the shear constitutive model. Finally, experimental results based on the ratio of yield stress to shear strength for different rock types are provided to verify the proposed criterion. The theoretical and mathematical analysis indicates that the yield point is the phase transition point during the shear deformation of rock discontinuities, which is equivalent to the critical failure point in the renormalization group theory. The relationship between the failure probability of n-order blocks and the basic failure probability can be obtained according to the stress transfer mechanism and the conditional probability, so that a mathematical description of the critical failure point can be established. The verification by both laboratory and in-situ tests shows that the results of the proposed criterion are consistent with those of classical methods. In addition, the determination of the parameters has little influence on the criterion's performance, which means the proposed criterion could eliminate the subjectiveness in determining the yield shear displacement. •A rock shear deformation model based on renormalization group theory is proposed•Theoretical solutions of yield displacement of rock discontinuities are obtained•The accuracy of the novel method is verified by both laboratory and in-situ tests•The method could reduce the subjective arbitrariness in determining yield point
ISSN:0013-7952
1872-6917
1872-6917
DOI:10.1016/j.enggeo.2023.107008