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Harrison, John P

ENGINEERING ROCK MECHANICS

ILLUSTRATIVE WORKED EXAMPLES

Herausgeber: Harrison, John PHudson, John A
Verlag: Elsevier Science, Oxford
Zusatzinfo: 523 Seiten.
ISBN13: 9780080530932
ISBN10: 0080530931
Erschienen: 26.01.2001
Medientyp: E-Book
Einbandart: ebook
Land: Großbritannien
Sprache: Englisch
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Engineering Rock Mechanics Part II: Illustrative Worked Examples can be used as an independent book or alternatively it complements an earlier publication called Engineering Rock Mechanics: An Introduction to the Principles by the same authors. It contains illustrative worked examples of engineering rock mechanics in action as the subject applies to civil, mining, petroleum and environmental engineering. The book covers the necessary understanding and the key techniques supporting the rock engineering design of structural foundations, dams, rock slopes, wellbores, tunnels, caverns, hydroelectric schemes and mines. There is a question and worked answer presentation with the question and answer sets collated into twenty chapters which match the subject matter of the first book.
  • Front Cover
  • Engineering Rock Mechanics: Part 2: Illustrative Worked Examples
  • Copyright Page
  • Contents
  • Preface
  • Units and Symbols
  • Part A: Illustrative worked examples - Questions and answers
  • Chapter 1. Introduction
  • 1.1 The subject of engineering rock mechanics
  • 1.2 Questions and answers: introduction
  • 1.3 Additional points
  • Chapter 2. Geological setting
  • 2.1 Rock masses
  • 2.2 Questions and answers: geological setting
  • 2.3 Additional points
  • Chapter 3. Stress
  • 3.1 Understanding stress
  • 3.2 Questions and answers: stress
  • 3.3 Additional points
  • Chapter 4. In situ rock stress
  • 4.1 The nature of in situ rock stress
  • 4.2 Questions and answers: in situ rock stress
  • 4.3 Additional points
  • Chapter 5. Strain and the theory of elasticity
  • 5.1 Stress and strain are both tensor quantities
  • 5.2 Questions and answers: strain and the theory of elasticity
  • 5.3 Additional points
  • Chapter 6. Intact rock: deformability, strength and failure
  • 6.1 Intact rock
  • 6.2 Questions and answers: intact rock
  • 6.3 Additional points
  • Chapter 7. Fractures and hemispherical projection
  • 7.1 Natural, pre-existing fractures
  • 7.2 Questions and answers: fractures and hemispherical projection
  • 7.3 Additional points
  • Chapter 8. Rock masses: deformability, strength and failure
  • 8.1 The nature of rock masses
  • 8.2 Questions and answers: rock masses
  • 8.3 Additional points
  • Chapter 9. Permeability
  • 9.1 Permeability of intact rock and rock masses
  • 9.2 Question and answers: permeability
  • 9.3 Additional points
  • Chapter 10. Anisotropy and inhomogeneity
  • 10.1 Rock masses: order and disorder
  • 10.2 Questions and answers: anisotropy and inhomogeneity
  • 10.3 Additional points
  • Chapter 11. Testing techniques
  • 11.1 Rock properties
  • 11.2 Questions and answers: testing techniques
  • 11.3 Additional points
  • Chapter 12. Rock mass classification
  • 12.1 Rock mass parameters and classification schemes
  • 12.2 Questions and answers: rock mass classification
  • 12.3 Additional points
  • Chapter 13. Rock dynamics and time dependency
  • 13.1 Strain rates
  • 13.2 Questions and answers: rock dynamics and time dependency
  • 13.3 Additional points
  • Chapter 14. Rock mechanics interactions and rock engineering systems
  • 14.1 Interactions
  • 14.2 Questions and answers: rock mechanics interactions and rock engineering systems
  • 14.3 Additional points
  • Chapter 15. Excavation principles
  • 15.1 Rock excavation
  • 15.2 Questions and answers: excavation principles
  • 15.3 Additional points
  • Chapter 16. Rock reinforcement and rock support
  • 16.1 The stabilization system
  • 16.2 Questions and answers: rock reinforcement and rock support
  • 16.3 Additional points
  • Chapter 17. Foundation and slope instability mechanisms
  • 17.1 Near-surface instability
  • 17.2 Question and answers: foundation and slope instability mechanisms
  • 17.3 Additional points
  • Chapter 18. Design of surface excavations
  • 18.1 The project objective
  • 18.2 Questions and answers: design of surface excavations
  • 18.3 Additional points
  • Chapter 19. Underground excavation instability mechanisms
  • 19.1 Underground instability
  • 19.2 Questions and answers: underground excavation instability mechanisms
  • 19.3 Additional points
  • Chapter 20. Design of underground excavations
  • 20.1 The project objective
  • 20.2 Question and answers: design of underground excavations
  • 20.3 Additional points
  • Part B: Questions only
  • Questions 1.1-1.5: introduction
  • Questions 2.1-2.10: geological setting
  • Questions 3.1-3.10: stress
  • Questions 4.1-4.10: in situ rock stress
  • Questions 5.1-5.10: strain and the theory of elasticity
  • Questions 6.1-6.10: intact rock
  • Questions 7.1-7.10: fractures and hemispherical projection
  • Questions 8.1-8.10: rock masses
  • Questions 9.1-9.10: permeability
  • Questions 10.1-10.10: anisotropy and inhomogeneity
  • Questions 11.1-11.10: testing techniques
  • Questions 12.1-12.10: rock mass classification
  • Questions 13.1-13.10: rock dynamics and time dependency
  • Questions 14.1-14.10: rock mechanics interactions and rock engineering systems
  • Questions 15.1-15.10: excavation principles
  • Questions 16.1-16.10: rock reinforcement and rock support
  • Questions 17.1-17.10: foundation and slope instability mechanisms
  • Questions 18.1-18.10: design of surface excavations
  • Questions 19.1-19.10: underground excavation instability mechanisms
  • Questions 20.1-20.10: design of underground excavations
  • References
  • Appendix A: 3-D stress cube model
  • Appendix B: Hemispherical projection sheet
  • Appendix C: Rock mass classification tables - RMR and Q
  • Index
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