Posted May 14, 200816 yr comment_10816 Tunnels and Shafts in Rock File : pdf, 8.62 MB, 236 pages Sommaire Chapter 1 Introduction Purpose Scope Applicability References Distribution Terminology Chapter 2 General Considerations Approach to Tunnel and Shaft Design and Construction Rock as a Construction Material Methods and Standards of Design Teamwork in Design The Process of Design and Implementation Chapter 3 Geology Considerations General Properties of Intact Rocks Faults, Joints, and Bedding Planes Weathering Geohydrology Gases in the Ground Chapter 4 Geotechnical Explorations for Tunnels and Shafts General Explorations for Reconnaissance and Feasibility Studies Explorations for Preconstruction Planning and Engineering Testing of Intact Rock and Rokc Mass Presentation of Geotechnical Data Geologic Investigations During Construction Chapter 5 Construction of Tunnels and Shaft General Tunnel Excavation by Drilling and Blasting Tunnel Excavation by Mechanical Means Initial Ground Support Sequential Excavation and Support Portal Construction Shaft Construction Options for Ground Improvement Drainage and Control of Groundwater Construction of Final, Permanent Tunnel Linings Ventilation of Tunnels and Shatfs Surveying for Tunels and Shatfts Construction Hazards and Safety Requirements Environmental Considerations and Effects Contracting Practices Practical Considerations for the Planning of Tunnel Projects Chapter 6 Design Considerations Fundamental Approach to Ground Support Design Functional Requirements of Tunels and Shafts Modes of Failure of Tunnels and Shafts Seismic Effects on Tunnels, Shafts and Portals Chapter 7 Design of Initial Support Design of Initial Ground Support Empirical Selection of Ground Support Theoretical and Semiteoretical Methods Design of Steel Ribs and Lattice Girders Chapter 8 Geomechanical Analyses General Concepts Convergence-Confinement Method Stress Analysis Continuum Analyses Using Finite Difference, Finite Element, or Boundary Element Methods Discontinuum Analyses Chapter 9 Design of Permanent, Final Lining Selection of a Permanent Lining General Principles of Rock-Lining Interaction Design Cases and Load Factors for Design Design of Permanent Concrete Linings Design of Permanent Steel Linings Chapter 10 Instrumentation and Monitoring Purposes of Instrumentation and Monitoring Planning and Designing the Monitoring Program Monitoring of Tunnel and Underground Chamber Construction
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comment_10816Tunnels and Shafts in Rock
File : pdf, 8.62 MB, 236 pages
Sommaire
Chapter 1
Introduction
Purpose
Scope
Applicability
References
Distribution
Terminology
Chapter 2
General Considerations
Approach to Tunnel and Shaft Design and Construction
Rock as a Construction Material
Methods and Standards of Design
Teamwork in Design
The Process of Design and Implementation
Chapter 3
Geology Considerations
General
Properties of Intact Rocks
Faults, Joints, and Bedding Planes
Weathering
Geohydrology
Gases in the Ground
Chapter 4
Geotechnical Explorations for Tunnels and Shafts
General
Explorations for Reconnaissance and Feasibility Studies
Explorations for Preconstruction Planning and Engineering
Testing of Intact Rock and Rokc Mass
Presentation of Geotechnical Data
Geologic Investigations During Construction
Chapter 5
Construction of Tunnels and Shaft
General
Tunnel Excavation by Drilling and Blasting
Tunnel Excavation by Mechanical Means
Initial Ground Support
Sequential Excavation and Support
Portal Construction
Shaft Construction
Options for Ground Improvement
Drainage and Control of Groundwater
Construction of Final, Permanent Tunnel Linings
Ventilation of Tunnels and Shatfs
Surveying for Tunels and Shatfts
Construction Hazards and Safety Requirements
Environmental Considerations and Effects
Contracting Practices
Practical Considerations for the Planning of Tunnel Projects
Chapter 6
Design Considerations
Fundamental Approach to Ground Support Design
Functional Requirements of Tunels and Shafts
Modes of Failure of Tunnels and Shafts
Seismic Effects on Tunnels, Shafts and Portals
Chapter 7
Design of Initial Support
Design of Initial Ground Support
Empirical Selection of Ground Support
Theoretical and Semiteoretical Methods
Design of Steel Ribs and Lattice Girders
Chapter 8
Geomechanical Analyses
General Concepts
Convergence-Confinement Method
Stress Analysis
Continuum Analyses Using Finite Difference, Finite Element, or Boundary Element Methods
Discontinuum Analyses
Chapter 9
Design of Permanent, Final Lining
Selection of a Permanent Lining
General Principles of Rock-Lining Interaction
Design Cases and Load Factors for Design
Design of Permanent Concrete Linings
Design of Permanent Steel Linings
Chapter 10
Instrumentation and Monitoring
Purposes of Instrumentation and Monitoring
Planning and Designing the Monitoring Program
Monitoring of Tunnel and Underground Chamber Construction