Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels
Hanging tunnels are a unique type of highway constructed on hard cliffs and towering mountains, renowned for their steep and distinctive characteristics. Compared to traditional full tunnels or open excavations, hanging tunnels offer significant advantages in terms of cost and construction time. How...
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2024-10-01
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| author | Hao Zhang Tianyu Luo Zhao Xiang Zhiwei Cai Tongqing Wu Dong Zhang Bing Liu Hu Feng |
| author_facet | Hao Zhang Tianyu Luo Zhao Xiang Zhiwei Cai Tongqing Wu Dong Zhang Bing Liu Hu Feng |
| author_sort | Hao Zhang |
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| description | Hanging tunnels are a unique type of highway constructed on hard cliffs and towering mountains, renowned for their steep and distinctive characteristics. Compared to traditional full tunnels or open excavations, hanging tunnels offer significant advantages in terms of cost and construction time. However, the engineering design and construction cases of such tunnels are rarely reported, and concerns about construction safety and surrounding rock stability have become focal points. Taking the Shibanhe hanging tunnel as a case study, this paper focuses on the stability of the surrounding rock during the excavation of limestone hanging tunnels using physical analog model (PAM) experiments and numerical calculation. Firstly, based on the similarity principle and orthogonal experiments, river sand, bentonite, gypsum and P.O42.5 ordinary Portland cement were selected as the raw materials to configure similar materials from limestone. Secondly, according to the characteristics of hanging tunnels, geological models were designed, and excavation experiments with three different sidewall excavation widths and rock wall slopes were carried out. The effects of these variables on the stress and displacement behavior of the surrounding rock were analyzed, and the laws of their influence on the stability of the surrounding rock were explored. Finally, numerical simulations were employed to simulate the tunnel excavation, and the results of the numerical simulations and PAM experiments were compared and analyzed to verify the reliability of the PAM experiment. The results showed that the vertical stress on the rock pillars was significantly affected by the sidewall excavation widths, with a maximum increase rate of 53.8%. The displacement of the sidewall opening top was greatly influenced by the sidewall excavation widths, while the displacement of the sidewalls was more influenced by the rock wall slope. The experimental results of the PAM are consistent with the displacement and stress trends observed in the numerical simulation results, verifying their reliability. These findings can provide valuable guidance and reference for the design and construction of hanging tunnels. |
| format | Article |
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| institution | Kabale University |
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| language | English |
| publishDate | 2024-10-01 |
| publisher | MDPI AG |
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| series | Buildings |
| spelling | doaj-art-5aa6fab6870d4f5ca734d1144c70d9482024-11-26T17:55:48ZengMDPI AGBuildings2075-53092024-10-011411347710.3390/buildings14113477Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging TunnelsHao Zhang0Tianyu Luo1Zhao Xiang2Zhiwei Cai3Tongqing Wu4Dong Zhang5Bing Liu6Hu Feng7CCTEG Chongqing Engineering (GROUP) Co., Ltd., Chongqing 400016, ChinaSchool of Architecture and Luqiao, Chongqing Vocational College of Transportation, Chongqing 402260, ChinaCCTEG Chongqing Engineering (GROUP) Co., Ltd., Chongqing 400016, ChinaCCTEG Chongqing Engineering (GROUP) Co., Ltd., Chongqing 400016, ChinaSchool of Civil and Hydraulic Engineering, Chongqing University of Science and Technology, Chongqing 401331, ChinaQinyuan Technology Co., Ltd., Chengdu 610213, ChinaSchool of Architecture and Luqiao, Chongqing Vocational College of Transportation, Chongqing 402260, ChinaChongqing Mas Sci. & Tech. Co., Ltd., Chongqing 400052, ChinaHanging tunnels are a unique type of highway constructed on hard cliffs and towering mountains, renowned for their steep and distinctive characteristics. Compared to traditional full tunnels or open excavations, hanging tunnels offer significant advantages in terms of cost and construction time. However, the engineering design and construction cases of such tunnels are rarely reported, and concerns about construction safety and surrounding rock stability have become focal points. Taking the Shibanhe hanging tunnel as a case study, this paper focuses on the stability of the surrounding rock during the excavation of limestone hanging tunnels using physical analog model (PAM) experiments and numerical calculation. Firstly, based on the similarity principle and orthogonal experiments, river sand, bentonite, gypsum and P.O42.5 ordinary Portland cement were selected as the raw materials to configure similar materials from limestone. Secondly, according to the characteristics of hanging tunnels, geological models were designed, and excavation experiments with three different sidewall excavation widths and rock wall slopes were carried out. The effects of these variables on the stress and displacement behavior of the surrounding rock were analyzed, and the laws of their influence on the stability of the surrounding rock were explored. Finally, numerical simulations were employed to simulate the tunnel excavation, and the results of the numerical simulations and PAM experiments were compared and analyzed to verify the reliability of the PAM experiment. The results showed that the vertical stress on the rock pillars was significantly affected by the sidewall excavation widths, with a maximum increase rate of 53.8%. The displacement of the sidewall opening top was greatly influenced by the sidewall excavation widths, while the displacement of the sidewalls was more influenced by the rock wall slope. The experimental results of the PAM are consistent with the displacement and stress trends observed in the numerical simulation results, verifying their reliability. These findings can provide valuable guidance and reference for the design and construction of hanging tunnels.https://www.mdpi.com/2075-5309/14/11/3477hanging tunnelphysical analog modeltunnel excavationrock wall slopesidewall excavation width |
| spellingShingle | Hao Zhang Tianyu Luo Zhao Xiang Zhiwei Cai Tongqing Wu Dong Zhang Bing Liu Hu Feng Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels Buildings hanging tunnel physical analog model tunnel excavation rock wall slope sidewall excavation width |
| title | Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels |
| title_full | Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels |
| title_fullStr | Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels |
| title_full_unstemmed | Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels |
| title_short | Experimental Study on the Influence of Sidewall Excavation Width and Rock Wall Slope on the Stability of the Surrounding Rock in Hanging Tunnels |
| title_sort | experimental study on the influence of sidewall excavation width and rock wall slope on the stability of the surrounding rock in hanging tunnels |
| topic | hanging tunnel physical analog model tunnel excavation rock wall slope sidewall excavation width |
| url | https://www.mdpi.com/2075-5309/14/11/3477 |
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