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Optimal design of anchor cables for slope reinforcement based on stress and displacement fields 被引量:16
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作者 Guanghua Yang Zhihui Zhong +1 位作者 Yucheng Zhang Xudong Fu 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2015年第4期411-420,共10页
How to determine reasonable position and length of anchor cable is a frequently encountered but not well addressed problem in slope reinforcement projects. In this paper, the variable-modulus elastoplastic strength re... How to determine reasonable position and length of anchor cable is a frequently encountered but not well addressed problem in slope reinforcement projects. In this paper, the variable-modulus elastoplastic strength reduction method (SRM) is used to obtain the stress field, displacement field, and factor of safety of slope. Slope reinforcement using anchor cables is modeled by surface loading, i.e. different distributions of surface loading represent various reinforcement schemes. Optimal reinforcement scheme of anchor cables can be determined based on slope stress and displacement fields. By comparing the factor of safety and stress field before and after slope reinforcement, it is found that better rein-forcement results can be achieved if strong reinforcement is applied upon the regions with high stress and large displacement. This method can well optimize the arrangement of anchor cables. In addition, several cases are employed to verify the proposed method. 展开更多
关键词 Slope Stress levelDisplacement fieldoptimal arrangementVariable-modulus elastoplastic model
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