Study on the Mechanical Properties of Hydraulic Tunnels With High Ground Temperature and the Temporal and Spatial Evolution of Plastic Zone

Authors

  • Haijuan Wang College of Water and Architectural Engineering, Shihezi University, Shihezi 832000, China
  • Haibo Jiang College of Water and Architectural Engineering, Shihezi University, Shihezi 832000, China https://orcid.org/0000-0002-7275-9417
  • Fengchun Yang College of Water and Architectural Engineering, Shihezi University, Shihezi 832000, China

DOI:

https://doi.org/10.13052/ejcm1779-7179.30231

Keywords:

. High Ground Temperature; Hydraulic Tunnel; Temporal and Spatial Evolution; Force Characteristics

Abstract

In order to explore the temporal and spatial evolution of the mechanical characteristics of hydraulic tunnels with high ground temperature during construction, a numerical simulation study was performed on the construction process of the tunnel using finite element calculation software, and the results were compared with the field monitoring results. The results showed that the displacements of the top arch and waist arch of the tunnel increased with time, and the top arch of the tunnel entrance was greatly affected by the excavation. The plastic zone was larger in the top arch and the bottom arch of surrounding rock, and smaller in the waist arch. The plastic strain of the top arch and bottom arch of surrounding rock was smaller, while the plastic strain of the waist arch was larger. The parallel excavation and lining construction have less impact on the surrounding rock.

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Author Biographies

Haijuan Wang, College of Water and Architectural Engineering, Shihezi University, Shihezi 832000, China

Haijuan Wang received bachelor’s degree and her master’s degree. Bachelor of Engineering, Agricultural Water Conservancy Engineering, Hebei University of Engineering (former North China Institute of Water Conservancy and Electric Power); 2010 Northwest A&F University, Master of Engineering, Water Conservancy and Hydropower Engineering. Since 2010, he has been working as an associate professor in School of Water Conservancy and Construction Engineering, Shihezi University. Research direction: water conservancy and hydropower, hydraulic structure engineering.

Haibo Jiang, College of Water and Architectural Engineering, Shihezi University, Shihezi 832000, China

Haibo Jiang is a Ph.D. student at the Xinjiang Agricultural University in China since spring 2008, received doctorate degree in water conservancy and hydroelectric engineering in 2011. Haibo Jiang Ph.D. work centers on Seepage prevention technology of plain reservoir and discusses the Seepage prevention technology of plain reservoir to develop new theories and methods. Scientific research is mainly carried out on the prevention and control of freezing damage of hydraulic materials and water engineering in cold areas, hydraulic structure performance, stress and deformation of rock and soil mass and disasters, etc., with obvious characteristics in multi-field coupling effect of hydraulic structure, freeze-thaw damage and damage mechanism of rock and soil mass, as well as the coupling mechanism of frost resistance, heat insulation and mechanics of hydraulic materials.

Fengchun Yang, College of Water and Architectural Engineering, Shihezi University, Shihezi 832000, China

Fengchun Yang received bachelor’s degree and master’s degree. 2013 Xi’an University of Technology, Bachelor of Engineering; 2017 Xi’an University of Technology, Master of Engineering in Geotechnical Engineering. Since 2017, has been teaching and associate professor at School of Water Conservancy and Construction Engineering, Shihezi University. His research direction is hydraulic geotechnical engineering in cold and arid areas.

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Published

2021-09-16

How to Cite

Wang, H., Jiang, H., & Yang, F. (2021). Study on the Mechanical Properties of Hydraulic Tunnels With High Ground Temperature and the Temporal and Spatial Evolution of Plastic Zone. European Journal of Computational Mechanics, 30(2-3), 145–168. https://doi.org/10.13052/ejcm1779-7179.30231

Issue

Section

Data-Driven Modeling and Simulation – Theory, Methods & Applications