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Introductory technical guidance for civil, structural and geotechnical engineers interested in ground support for tunnels and shafts. Here is what is discussed: 1. FUNDAMENTAL APPROACH TO GROUND SUPPORT DESIGN 2. FUNCTIONAL REQUIREMENTS OF TUNNELS AND SHAFTS 3. MODES OF FAILURE OF TUNNELS AND SHAFTS 4. SEISMIC EFFECTS ON TUNNELS.
Introductory technical guidance for civil engineers, geotechnical engineers and construction managers interested in construction of tunnels and shafts. Here is what is discussed: 1. GENERAL, 2. TUNNEL EXCAVATION BY DRILLING AND BLASTING, 3. TUNNEL EXCAVATION BY MECHANICAL MEANS, 4. INITIAL GROUND SUPPORT, 5. SEQUENTIAL EXCAVATION AND SUPPORT, 6. PORTAL CONSTRUCTION, 7. SHAFT CONSTRUCTION, 8. OPTIONS FOR GROUND IMPROVEMENT, 9. DRAINAGE AND CONTROL OF GROUNDWATER, 10. CONSTRUCTION OF FINAL, PERMANENT TUNNEL LININGS, 11. VENTILATION OF TUNNELS AND SHAFTS, 12. SURVEYING FOR TUNNELS AND SHAFTS, 13. CONSTRUCTION HAZARDS AND SAFETY REQUIREMENTS, 14. ENVIRONMENTAL CONSIDERATIONS AND EFFECTS, 15. CONTRACTING PRACTICES, 16. PRACTICAL CONSIDERATIONS FOR THE PLANNING OF TUNNEL PROJECTS.
Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers nd construction managers interested in design and construction of tunnels and shafts in rock and soil. Here is what is discussed: 1. CONSTRUCTION BY BLASTING AND BORING, 2. DESIGN CONSIDERATIONS, 3. GEOTECHNICAL ANALYSIS, 4. INITIAL GROUND SUPPORT DESIGN, 5. CONSTRUCTION OF TUNNELS AND SHAFTS, 6. GEOTECHNICAL EXPLORATION, 7. GROUND SUPPORT, 8. TUNNELS AND SHAFTS IN ROCK.
Introductory technical guidance for civil engineers, geotechnical engineers and construction managers interested in engineering for tunnels and shafts. Here is what is discussed: 1. CONSTRUCTION BY BLASTING AND BORING 2. DESIGN CONSIDERATIONS 3. GEOTECHNICAL ANALYSIS 4. INITIAL GROUND SUPPORT DESIGN 5. CONSTRUCTION OF TUNNELS AND SHAFTS 6. GEOTECHNICAL EXPLORATION 7. GROUND SUPPORT 8. TUNNELS AND SHAFTS IN ROCK
Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in design and construction of tunnels and shafts in rock. Here is what is discussed: 1. FUNDAMENTAL APPROACH TO GROUND SUPPORT DESIGN, 2. FUNCTIONAL REQUIREMENTS OF TUNNELS AND SHAFTS, 3. MODES OF FAILURE OF TUNNELS AND SHAFTS, 4. SEISMIC EFFECTS ON TUNNELS.
Introductory technical guidance for civil and geotechnical engineers and construction managers interested in design and construction of tunnels and shafts in rock. Here is what is discussed: 1. GENERAL CONCEPTS 2. CONVERGENCE-CONFINEMENT METHOD 3. STRESS ANALYSIS 4. CONTINUUM ANALYSES USING FINITE DIFFERENCE, FINITE ELEMENT, OR BOUNDARY ELEMENT METHODS 5. DISCONTINUUM ANALYSES.
Tunnelling provides a robust solution to a variety of engineering challenges. It is a complex process, which requires a firm understanding of the ground conditions as well as the importance of ground-structure interaction. This book covers the full range of areas related to tunnel construction required to embark upon a career in tunnelling. It also includes a number of case studies related to real tunnel projects, to demonstrate how the theory applies in practice. New features of this second edition include: the introduction of a case study related to Crossrail’s project in London, focussing on the Whitechapel and Liverpool Street station tunnels and including considerations of building tunnels in a congested urban area; and further information on recent developments in tunnel boring machines, including further examples of all the different types of machine as well as multi-mode machines. The coverage includes: Both hard-rock and soft-ground conditions Site investigation, parameter selection, and design considerations Methods of improving the stability of the ground and lining techniques Descriptions of the various main tunnelling techniques Health and safety considerations Monitoring of tunnels during construction Description of the latest tunnel boring machines Case studies with real examples, including Crossrail’s project in London Clear, concise, and heavily illustrated, this is a vital text for final-year undergraduate and MSc students and an invaluable starting point for young professionals and novices in tunnelling.
Frozen Ground Engineering first introduces the reader to the frozen environment and the behavior of frozen soil as an engineering material. In subsequent chapters this information is used in the analysis and design of ground support systems, foundations, and embankments. These and other topics make this book suitable for use by civil engineering students in a one-semester course on frozen ground engineering at the senior or first-year-graduate level. Students are assumed to have a working knowledge of undergraduate mechanics (statics and mechanics of materials) and geotechnical engineering (usual two-course sequence). A knowledge of basic geology would be helpful but is not essential. This book will also be useful to advanced students in other disciplines and to engineers who desire an introduction to frozen ground engineering or references to selected technical publications in the field. BACKGROUND Frozen ground engineering has developed rapidly in the past several decades under the pressure of necessity. As practical problems involving frozen soils broadened in scope, the inadequacy of earlier methods for coping became increasingly apparent. The application of ground freezing to geotechnical projects throughout the world continues to grow as significant advances have been made in ground freezing technology. Freezing is a useful and versatile technique for temporary earth support, groundwater control in difficult soil or rock strata, and the formation of subsurface containment barriers suitable for use in groundwater remediation projects.
Tunnelling provides a robust solution to a variety of engineering challenges. It is a complex process, which requires a firm understanding of the ground conditions as well as structural issues. This book covers the whole range of areas that you need to know in order to embark upon a career in tunnelling. It also includes a number of case studies of real tunnel projects, to demonstrate how the theory applies in practice. The coverage includes: Both hard-rock and soft-ground conditions Site investigation, parameter selection, and design considerations Methods of improving the stability of the ground and lining techniques Descriptions of the various tunnelling techniques Health and safety considerations Monitoring of tunnels during construction Clear, concise, and heavily illustrated, this is a vital text for final-year undergraduate and MSc students and an invaluable starting point for young professionals.
The study of the solid part of the earth on which structures are built is an essential part of the training of a civil engineer. Geotechnical processes such as drilling, pumping and injection techniques enhance the viability of many construction processes by improving ground conditions. Highlighting the ground investigation necessary for the process, the likely improvement in strength of treated ground and testing methods An Introduction to Geotechnical Processes covers the elements of ground treatment and improvement, from the control of groundwater, drilling and grouting to ground anchors and electro-chemical hardening.