Investigation of the Application of Complex Function Theory in Underground Mine Design: A Case Study

Tan, Lihai; Peng, Huaide; Si, Xuefeng; Lin, Qibin

doi:10.3390/app132212142

Applied Sciences

2023

DOI: 10.3390/app132212142

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Investigation of the Application of Complex Function Theory in Underground Mine Design: A Case Study

Lihai Tan,

Huaide Peng,

Xuefeng Si

et al.

Abstract: This study, with the engineering background of the design of a stope involving a sublevel mining method in a certain underground metal mine, explored the application of stress-solving methods based on the complex variable function theory in actual engineering. Three mathematical calculation models based on the functions of a complex variable were established. Through triangle interpolation, mapping functions of a plane with a roadway section and a plane with the stope section were determined. An improved Schwa… Show more

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2024

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Cited by 1 publication

References 19 publications

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Stress and Deformation Failure Characteristics Surrounding Rock in Rectangular Roadways with Super-Large Sections

Zhao,

Chen,

Wang

et al. 2024

Applied Sciences

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This paper presents our study of the deformation and failure characteristics surrounding rock in roadways with super-large sections during the integrated coal pillar excavation, filling and retention process between coalfaces. Based on the theory of complex variable function, the mapping accuracy of conformal transformation is improved, and an analytical solution for surrounding rock stress in super-large sections of roadway is derived. The stress distribution law of the surrounding rock of rectangular roadways is analyzed, and numerical simulation software is used for supplementary analysis and verification. According to the research findings, the compressive stresses on two sides and the tensile stress on the roof of a rectangular roadway with super-large sections decreased with the increase in the side-pressure coefficient; however, when the side-pressure coefficient increased to a certain point, those two sides changed from a pressure-bearing status to a tensile force-bearing status, while the roof changed from a tensile force-bearing status to a pressure-bearing status. In these stress changes, all the stresses upon the surrounding rock of roadways were compressive stresses and the two critical side-pressure coefficient values were λup and λdown. As the aspect ratio of the roadway increased from 1 to 9, its λup increased from 1.823 to 5.865 and its λdown increased from 0.549 to 0.888. When those side-pressure coefficients in the environment where a roadway is located exceed their critical values, tensile stress will take place on the roadway boundary and result in tensile failure, thus leading to instability in the roadway super-large section. The impact of the side-pressure coefficient upon the plastic zone range of roadway surrounding rock is greater than the impact of the roadway width. In order to secure stability in the surrounding rock of roadways with super-large sections during the excavation process, the side-pressure coefficient should remain around 1; in this situation, the plastic zone covers the smallest range and the relevant support work is the easiest. These research findings provide theoretical references for the excavation and support of roadways with super-large sections.

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Stress and Deformation Failure Characteristics Surrounding Rock in Rectangular Roadways with Super-Large Sections

Zhao,

Chen,

Wang

et al. 2024

Applied Sciences

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Investigation of the Application of Complex Function Theory in Underground Mine Design: A Case Study

Cited by 1 publication

References 19 publications

Stress and Deformation Failure Characteristics Surrounding Rock in Rectangular Roadways with Super-Large Sections

Stress and Deformation Failure Characteristics Surrounding Rock in Rectangular Roadways with Super-Large Sections

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