Your search keyword '"Burgus model"' showing total 2 results

1. Research on Vault Settlement during Three-Step Tunnel Construction Process Based on Sandstone Rheological Experiment.

Author

Peng, Chang, Qu, Yong, Fu, Helin, Xie, Chengda, and Cao, Guiqian

Subjects

*STRAINS & stresses (Mechanics), *TUNNEL design & construction, *RAILROAD design & construction, *RHEOLOGY, *HIGH speed trains, *ROCK deformation

Abstract

Tunnel stability is influenced by the rheological properties of the surrounding rock. This study, based on the Ganshen high-speed railway tunnel project, examines the rheological characteristics of siltstone and sandstone through laboratory tests and theoretical analysis. Rheological curves and parameters are derived, revealing the time-dependent deformation mechanisms of the surrounding rocks. A numerical simulation model is created using these parameters to analyze deformation and stress characteristics based on different rock levels and inverted arch closure distances. Results indicate that sandstone follows the Cvisc model, with the Maxwell elastic modulus increasing under higher loads while the viscous coefficient decreases. The vault displacement is mainly affected by the surrounding rock strength; lower strength leads to greater displacement, which also increases with the closure distance of the inverted arch. These findings are crucial for determining the optimal closure distance of inverted arches in sandstone conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Research on Vault Settlement during Three-Step Tunnel Construction Process Based on Sandstone Rheological Experiment

Author

Chang Peng, Yong Qu, Helin Fu, Chengda Xie, and Guiqian Cao

Subjects

granite, sandstone, rheological properties, experimental study, Burgus model, Cvisc model, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Tunnel stability is influenced by the rheological properties of the surrounding rock. This study, based on the Ganshen high-speed railway tunnel project, examines the rheological characteristics of siltstone and sandstone through laboratory tests and theoretical analysis. Rheological curves and parameters are derived, revealing the time-dependent deformation mechanisms of the surrounding rocks. A numerical simulation model is created using these parameters to analyze deformation and stress characteristics based on different rock levels and inverted arch closure distances. Results indicate that sandstone follows the Cvisc model, with the Maxwell elastic modulus increasing under higher loads while the viscous coefficient decreases. The vault displacement is mainly affected by the surrounding rock strength; lower strength leads to greater displacement, which also increases with the closure distance of the inverted arch. These findings are crucial for determining the optimal closure distance of inverted arches in sandstone conditions.

Published

2024