Shield Tunnel Engineering From Theory to Practice
Auteurs : Wang Shuying, Fu Jinyang, Zhang Cong, Yang Junsheng
Shield Tunnel Engineering: From Theory to Practice is a key technique that offers one of the most important ways to build tunnels in fast, relatively safe, and ecologically friendly ways. The book presents state-of-the-art solutions for engineers working within the field of shield tunnelling technology for railways. It includes expertise from major projects in shield tunnel construction for high-speed rail, subways and other major projects. In particular, it presents a series of advances in shield muck conditioning technology, slurry treatment, backfill grouting, and environmental impact and control. In this volume, foundational knowledge is combined with the latest advances in shield tunnel engineering.
Twelve chapters cover key areas including geological investigation, the types, structures and workings of shield machines, selecting a machine, shield segment design, shield tunnelling parameter control, soil conditioning for earth pressure balance (EPB) shield tunnelling, shield slurry treatment, backfill grouting, environmental impact, and problems in shield tunnel structures and their amelioration. This book presents the essential knowledge needed for shield tunnel engineering, the latest advances in the field, and practical guidance for engineers.
1. Introduction2. Survey and design in shield tunnel engineering3. Type, structure and working principle of shield machine4. Selection of shield machine5. Structure type and design of shield tunnel lining6. Starting and receiving of shield7. Shield tunnelling and segment assembly8. Soil conditioning for EPB shield tunnelling9. Shield slurry treatment10. Backfill grouting11. Environmental impact of shield tunnel construction and their control12. Shield tunnel structural defects and treatment
Jinyang Fu is an Associate Professor at Central South University. in China. He received his PhD from the Technical University Bergakademie Freiberg, Germany. His current interests include tunnelling ground structure interaction, numerical analysis in underground engineering, and health detection in underground structures by computer vision. He has led projects funded by the National Natural Science Foundation of China, as well as participating in corporate research projects. He has published over 20 papers, and holds five Chinese patents.
Dr. Cong Zhang is a lecturer of Central South University of Forestry and Technology, China. In 2019, he
graduated from Central South University with a doctoral degree in engineering. His research interest is
mainly focus on research and development of new grouting materials, numerical analysis method of grouting,
and the rehabilitation of tunnels and underground structures. He has presided over and participated in more
than 10 projects entrusted by the state, provincial and ministerial level, as well as enterprises and companies,
also won the second prize of science and technology progress of Ministry of Education in 2019 (in seventh
place). In addition, he is published more than 30 journal papers indexed by SCI/EI, authorized 10 national
patents.
Junsheng Yang is a Professor at the Central South University, in China. He received his PhD from the
- Presents the foundational concepts of shield tunnel engineering
- Gives the latest advances in shield tunnel engineering techniques
- Considers common problems in shield tunnel structures and their solutions
- Lays out step-by-step guidance for engineers working with shield tunnelling
- Assesses environmental impacts and their control in shield tunnel engineering
Date de parution : 08-2021
Ouvrage de 648 p.
15x22.8 cm
Thème de Shield Tunnel Engineering :
Mots-clés :
?Assembly method; Backfill grouting; Backup systems; Basic parts; Book organization; Building damage; Case study; Conditioning agents; Defect detection; Defect treatment; Determination of tunnelling parameters; Development history; Engineering examples; Engineering geology evaluation; Equipment; Evaluation index; Examples; Geological condition; Geological investigation; Ground deformation; Ground deformation control; Ground loss; Ground reinforcement; Lining defects; Material; Monitoring; Mud-water separation treatment system; New technologies; Opening chamber; Optimization technology; Parameter control; Prediction; Recycling; Safety control; Safety evaluation for tunnel lining; Segment; Segments assembling; Selection principles; Shield machine composition; Shield machine configuration; Shield machine launching; Shield machine reception; Shield machine selection; Shield muck properties; Shield muck recycling; Shield tunnel engineering; Shield tunnelling; Slurry balance shield; Slurry treatment; Soil conditioning; Special shield machines; Structure calculation; Structure type; Technology development trend; Tunnel alignment; Tunnel lining; Tunnelling mode; Types of shield machine; Working principles; Working shaft