Strain Gradient Model of Zonal Disintegration of Rock Mass near Deep-Level Tunnels


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Abstract

This paper presents one strain gradient model of zonal disintegration of rock mass near deep level tunnel. The governing equations and boundary conditions of the model are established. Numerical methods (quasi-Newton method and shooting method) are adopted to solve the obtained fourth-order equilibrium equations with higher order boundary conditions in terms of displacement. The stress field in elastic and plastic zones is obtained. The effects of model parameters on stresses distribution in surrounding the tunnel rock mass are examined. The necessary conditions for the formation of zonal disintegration are elucidated.

About the authors

C. Z. Qi

Beijing Future Urban Design High-Tech Innovation Center and Innovation Team of Civil and Underground Engineering of Ministry of Education of P.R.China

Author for correspondence.
Email: qichengzhi65@163.com
China, Beijing, 100044

K. R. Li

Beijing Future Urban Design High-Tech Innovation Center and Innovation Team of Civil and Underground Engineering of Ministry of Education of P.R.China; Defense Engineering Institute

Email: qichengzhi65@163.com
China, Beijing, 100044; Nanjing, 210007

J. P. Bai

Faculty of Computing, Engineering & Science

Email: qichengzhi65@163.com
United Kingdom, Pontypridd, CF37 1DL

A. I. Chanyshev

Chinakal Institute of Mining, B, Russian Academy of Sciences

Email: qichengzhi65@163.com
Russian Federation, Krasnyi pr. 54, Novosibirsk, 630091

P. Liu

Beijing Future Urban Design High-Tech Innovation Center and Innovation Team of Civil and Underground Engineering of Ministry of Education of P.R.China

Email: qichengzhi65@163.com
China, Beijing, 100044

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