Strength Criterion Effect on the Mechanical Response of Elasto-Brittle Plastic Rock Mass Considering Different Post-Peak Elastic Strain Forms

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Authors

  • Lei Li
     Chen, State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining &Technology, 221116 Xuzhou, School of Mechanics and Civil Engineering, China University of Mining & Technology 221116 Xuzhou ,CN
  • Xianbiao Mao
     State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining &Technology, 221116 Xuzhou, School of Mechanics and Civil Engineering, China University of Mining & Technology 221116 Xuzhou ,CN
  • Liang Chen
     State Key Laboratory for Geomechanics and Deep Underground Engineering, China University of Mining &Technology, 221116 Xuzhou, School of Mechanics and Civil Engineering, China University of Mining & Technology 221116 Xuzhou ,CN

Keywords:

Unified criterion equation; circular tunnel; post-peak elastic strain; Young's modulus attenuation

Abstract

The strength criterion is an extremely important basis for evaluating the stability of surrounding rock and optimizing the support pressure design. In this paper, nine different strength criterions are summarized and simplified based on the reasonable assumption. And then, a new unified criterion equation is established which includes all of the strength theories proposed by this paper. Meanwhile, a new unified closed-form solution for circular opening based on the newly proposed unified criterion equation is deduced with the non-associative flow rule under plane strain conditions. In the plastic zone, four different elastic strain assumptions are applied to solve the plastic zone deformation. The validity of the solution is also verified by comparing with the traditional solution. Finally, the influences of strength criterions, dilation coefficient, elastic strain form of plastic zone and rock mass damage on the mechanical response of surrounding rock are discussed in detail. The research result shows that Tresca(TR) and Von Mises (VM) criterions give a largest plastic zone radius, followed by Inscribe Drucker-Prager (IDP), Mohr-Coulomb (MC) and Middle Circumscribe Drucker-Prager (MDP) criterions and seem to underestimate the self-strength of rock mass. Circumscribe Drucker-Prager (CDP) criterion gives a smallest plastic zone radius and may be overestimated the self-strength of rock mass; Unified Strength Theory (UST0.5), Generalized SMP criterion (GSMP), Mogi- Coulomb (GMC) and Generalized Lade-Duncan (GLD) criterions which reasonably consider the effect of internal principal stresses give an intermediate range and can be strongly recommended for evaluating the mechanics and deformation behaviour of surrounding rock. As the dilation coefficient gradually increases, the dimensionless surface displacement presents the nonlinear increase characteristics; The deformation of plastic zone which are closely related to the strength criterions, are also greatly influenced by the elastic strain assumption in the plastic zone and rock mass damage degree. The assumption that the elastic strain satisfies Hook's law (Case 3) may be more reasonable compared to the continuous elastic strain (Case 1) and thick-walled cylinders (Case 2) assumptions. In addition, the Young's modulus power function damage model seems to give more reasonable solution for the deformation of plastic zone and is suggested to be a preferred method for solving plastic displacement. The research results can provide very important theoretical basis for evaluating the tunnel stability and support design reliability for different lithology rock mass in underground engineering.

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Published

2022-10-20

How to Cite

Li, L., Mao, X., & Chen, L. (2022). Strength Criterion Effect on the Mechanical Response of Elasto-Brittle Plastic Rock Mass Considering Different Post-Peak Elastic Strain Forms. Journal of Mines, Metals and Fuels, 67(4), 199–212. Retrieved from https://informaticsjournals.com/index.php/jmmf/article/view/31543

Issue

Volume 67, Issue 4, April 2019

Section

Articles

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Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

 

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