Analytical solutions for deep tunnels in strain-softening rocks modeled by different elastic strain definitions with the unified strength theory

This paper presents the analytical solutions for the responses of tunnels excavated in rock masses exhibiting strain-softening behavior. Since previous analyses give little consideration to the effect of the intermediate principal stress on the strain-softening rock behavior, the unified strength th...

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Veröffentlicht in:	Science China. Technological sciences 2022-10, Vol.65 (10), p.2503-2519
Hauptverfasser:	Sun, ZhenYu, Zhang, DingLi, Fang, Qian, Dui, GuanSuo, Chu, ZhaoFei
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Sprache:	eng
Schlagworte:	Dilatancy Engineering Exact solutions Mathematical models Parametric analysis Plastic deformation Residual strength Rock masses Stress distribution Tunnel construction Tunnels
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creator	Sun, ZhenYu Zhang, DingLi Fang, Qian Dui, GuanSuo Chu, ZhaoFei
description	This paper presents the analytical solutions for the responses of tunnels excavated in rock masses exhibiting strain-softening behavior. Since previous analyses give little consideration to the effect of the intermediate principal stress on the strain-softening rock behavior, the unified strength theory was introduced to analyze the tunnel response. Four cases of different definitions of the elastic strain in the softening and residual regions, used in the existing solutions, were considered. The tunnel displacements, stresses, radii of the softening and residual zones and critical stresses were deduced. The proposed solutions were verified by comparing with numerical simulations, model tests and existing solutions. Furthermore, the solutions of the four cases were compared with each other to investigate the influence of the elastic strain expressions on the tunnel responses. The results showed that the intermediate principal stress coefficient b has a significant effect on the tunnel displacements, stress fields, and plastic radii. Parametric studies were performed to analyze the influences of the softening and residual dilatancy coefficients, softening modulus and residual strength on the tunnel responses. The parametric analysis indicated that the existing models should be carefully evaluated in the analysis of tunnels constructed through average-quality rocks; the proposed solutions outperformed the existing models in solving the mentioned problem.
doi_str_mv	10.1007/s11431-022-2158-9
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Since previous analyses give little consideration to the effect of the intermediate principal stress on the strain-softening rock behavior, the unified strength theory was introduced to analyze the tunnel response. Four cases of different definitions of the elastic strain in the softening and residual regions, used in the existing solutions, were considered. The tunnel displacements, stresses, radii of the softening and residual zones and critical stresses were deduced. The proposed solutions were verified by comparing with numerical simulations, model tests and existing solutions. Furthermore, the solutions of the four cases were compared with each other to investigate the influence of the elastic strain expressions on the tunnel responses. The results showed that the intermediate principal stress coefficient b has a significant effect on the tunnel displacements, stress fields, and plastic radii. Parametric studies were performed to analyze the influences of the softening and residual dilatancy coefficients, softening modulus and residual strength on the tunnel responses. The parametric analysis indicated that the existing models should be carefully evaluated in the analysis of tunnels constructed through average-quality rocks; the proposed solutions outperformed the existing models in solving the mentioned problem.</description><identifier>ISSN: 1674-7321</identifier><identifier>EISSN: 1869-1900</identifier><identifier>DOI: 10.1007/s11431-022-2158-9</identifier><language>eng</language><publisher>Beijing: Science China Press</publisher><subject>Dilatancy ; Engineering ; Exact solutions ; Mathematical models ; Parametric analysis ; Plastic deformation ; Residual strength ; Rock masses ; Stress distribution ; Tunnel construction ; Tunnels</subject><ispartof>Science China. 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Technological sciences</title><addtitle>Sci. China Technol. Sci</addtitle><description>This paper presents the analytical solutions for the responses of tunnels excavated in rock masses exhibiting strain-softening behavior. Since previous analyses give little consideration to the effect of the intermediate principal stress on the strain-softening rock behavior, the unified strength theory was introduced to analyze the tunnel response. Four cases of different definitions of the elastic strain in the softening and residual regions, used in the existing solutions, were considered. The tunnel displacements, stresses, radii of the softening and residual zones and critical stresses were deduced. The proposed solutions were verified by comparing with numerical simulations, model tests and existing solutions. Furthermore, the solutions of the four cases were compared with each other to investigate the influence of the elastic strain expressions on the tunnel responses. The results showed that the intermediate principal stress coefficient b has a significant effect on the tunnel displacements, stress fields, and plastic radii. Parametric studies were performed to analyze the influences of the softening and residual dilatancy coefficients, softening modulus and residual strength on the tunnel responses. 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Technological sciences</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Sun, ZhenYu</au><au>Zhang, DingLi</au><au>Fang, Qian</au><au>Dui, GuanSuo</au><au>Chu, ZhaoFei</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Analytical solutions for deep tunnels in strain-softening rocks modeled by different elastic strain definitions with the unified strength theory</atitle><jtitle>Science China. Technological sciences</jtitle><stitle>Sci. China Technol. Sci</stitle><date>2022-10-01</date><risdate>2022</risdate><volume>65</volume><issue>10</issue><spage>2503</spage><epage>2519</epage><pages>2503-2519</pages><issn>1674-7321</issn><eissn>1869-1900</eissn><abstract>This paper presents the analytical solutions for the responses of tunnels excavated in rock masses exhibiting strain-softening behavior. Since previous analyses give little consideration to the effect of the intermediate principal stress on the strain-softening rock behavior, the unified strength theory was introduced to analyze the tunnel response. Four cases of different definitions of the elastic strain in the softening and residual regions, used in the existing solutions, were considered. The tunnel displacements, stresses, radii of the softening and residual zones and critical stresses were deduced. The proposed solutions were verified by comparing with numerical simulations, model tests and existing solutions. Furthermore, the solutions of the four cases were compared with each other to investigate the influence of the elastic strain expressions on the tunnel responses. The results showed that the intermediate principal stress coefficient b has a significant effect on the tunnel displacements, stress fields, and plastic radii. Parametric studies were performed to analyze the influences of the softening and residual dilatancy coefficients, softening modulus and residual strength on the tunnel responses. The parametric analysis indicated that the existing models should be carefully evaluated in the analysis of tunnels constructed through average-quality rocks; the proposed solutions outperformed the existing models in solving the mentioned problem.</abstract><cop>Beijing</cop><pub>Science China Press</pub><doi>10.1007/s11431-022-2158-9</doi><tpages>17</tpages></addata></record>
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subjects	Dilatancy Engineering Exact solutions Mathematical models Parametric analysis Plastic deformation Residual strength Rock masses Stress distribution Tunnel construction Tunnels
title	Analytical solutions for deep tunnels in strain-softening rocks modeled by different elastic strain definitions with the unified strength theory
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