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Physical modelling of deformation and failure mechanisms and supporting effects for a deep-buried tunnel in inclined layered strata
https://orcid.org/0000-0002-6243-175X
Abstract In this paper, two physical model tests were conducted to study the deformation failure mechanism of a deep-buried tunnel in inclined layered strata and supporting effects with constant resistance and large deformation of anchor cables. The non-contact deformation and displacement test system, the strain data acquisition system, and the camera were applied to obtain the deformation and failure process of surrounding rocks and the vertical and transverse strain fields during the test. The results of the research showed that when the tunnel was excavated in the inclined thin-layer rock strata, the deformation had obvious asymmetry, the left arch shoulder of the tunnel presented bending fracture failure, the right arch shoulder presented shear slip failure; the key position of the failure was located in the left arch shoulder of the tunnel. When the asymmetric constant resistance and large deformation anchor cable model was used, the strain field was transferred to the deep rock strata, and the deformation coordination of deep and shallow rock strata was realized. The deformation and strain field of surrounding rocks was significantly reduced.
Physical modelling of deformation and failure mechanisms and supporting effects for a deep-buried tunnel in inclined layered strata
https://orcid.org/0000-0002-6243-175X
Abstract In this paper, two physical model tests were conducted to study the deformation failure mechanism of a deep-buried tunnel in inclined layered strata and supporting effects with constant resistance and large deformation of anchor cables. The non-contact deformation and displacement test system, the strain data acquisition system, and the camera were applied to obtain the deformation and failure process of surrounding rocks and the vertical and transverse strain fields during the test. The results of the research showed that when the tunnel was excavated in the inclined thin-layer rock strata, the deformation had obvious asymmetry, the left arch shoulder of the tunnel presented bending fracture failure, the right arch shoulder presented shear slip failure; the key position of the failure was located in the left arch shoulder of the tunnel. When the asymmetric constant resistance and large deformation anchor cable model was used, the strain field was transferred to the deep rock strata, and the deformation coordination of deep and shallow rock strata was realized. The deformation and strain field of surrounding rocks was significantly reduced.
Physical modelling of deformation and failure mechanisms and supporting effects for a deep-buried tunnel in inclined layered strata
https://orcid.org/0000-0002-6243-175X
Abstract In this paper, two physical model tests were conducted to study the deformation failure mechanism of a deep-buried tunnel in inclined layered strata and supporting effects with constant resistance and large deformation of anchor cables. The non-contact deformation and displacement test system, the strain data acquisition system, and the camera were applied to obtain the deformation and failure process of surrounding rocks and the vertical and transverse strain fields during the test. The results of the research showed that when the tunnel was excavated in the inclined thin-layer rock strata, the deformation had obvious asymmetry, the left arch shoulder of the tunnel presented bending fracture failure, the right arch shoulder presented shear slip failure; the key position of the failure was located in the left arch shoulder of the tunnel. When the asymmetric constant resistance and large deformation anchor cable model was used, the strain field was transferred to the deep rock strata, and the deformation coordination of deep and shallow rock strata was realized. The deformation and strain field of surrounding rocks was significantly reduced.
Physical modelling of deformation and failure mechanisms and supporting effects for a deep-buried tunnel in inclined layered strata
Sun, Xiaoming (author) / Zhao, Wenchao (author) / Shen, Fuxin (author) / Wang, Jian (author) / Cui, Li (author) / Jiang, Ming (author)
2023
Article (Journal)
Electronic Resource
English
BKL:
56.00$jBauwesen: Allgemeines
/
38.58
Geomechanik
/
38.58$jGeomechanik
/
56.20
Ingenieurgeologie, Bodenmechanik
/
56.00
Bauwesen: Allgemeines
/
56.20$jIngenieurgeologie$jBodenmechanik
RVK:
ELIB18
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