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This second edition of the successful Foundations on Rock presents an up-to-date practical reference book describing current engineering practice in the investigation, design and construction of foundations on rock. An extra chapter on Tension Foundations has been included. The methods set out are readily applicable to high rise buildings, bridges,
Introductory technical guidance for civil, structural and geotechnical engineers interested in stability of large concrete structures such as dams and locks. Here is what is discussed: 1. FAILURE MODES AND WEDGE SLIDING ANALYSIS 2. STABILITY REQUIREMENTS 3. RISK-BASED ANALYSIS FOR FLOOD PROJECT STUDIES 4. SITE INFORMATION 5. CRITICAL STRUCTURES 6. EXISTING STRUCTURES 7. FACTORS OF SAFETY FOR SLIDING 8. FACTORS OF SAFETY FOR FLOTATION 9. LIMITS ON RESULTANT LOCATION 10. ALLOWABLE BEARING CAPACITY 11. SEISMIC STABILITY 12. MANDATORY REQUIREMENTS.
Introductory technical guidance for civil engineers interested in stability and stress analysis of concrete gravity dams. Here is what is discussed: 1. STABILITY ANALYSIS 2. STATIC AND DYNAMIC STRESS ANALYSIS.
Introductory technical guidance for civil and geotechnical engineers and construction managers interested in sliding stability of foundations on rock. Here is what is discussed:1. MODES OF FAILURE2. METHODS OF ANALYSIS3. PRELIMINARY PROCEDURES4. ANALYTICAL PROCEDURES5. DESIGN CONSIDERATIONS6. SEISMIC SLIDING STABILITY7. TREATMENT METHODS.
With the ever-increasing developmental activities as diverse as the construction of dams, roads, tunnels, underground powerhouses and storage facilities, petroleum exploration and nuclear repositories, a more comprehensive and updated understanding of rock mass is essential for civil engineers, engineering geologists, geophysicists, and petroleum and mining engineers. Though some contents of this vast subject are included in under-graduate curriculum, there are full-fledged courses on Rock Mechanics/Rock Engineering in postgraduate programmes in civil engineering and mining engineering. Much of the material presented in this book is also taught to geology and geophysics students. In addition, the book is suitable for short courses conducted for teachers, practising engineers and engineering geologists. This book, with contributions from a number of authors with expertise and vast experience in various areas of rock engineering, gives an in-depth analysis of the multidimensional aspects of the subject. The text covers a wide range of topics related to engineering behaviour of rocks and rock masses, their classifications, interpretation of geological mapping of joints through stereographic projection, in situ stress measurements, laboratory and field tests, stability of rock slopes, foundations of structures, including dams and support systems for underground excavations. The Third Edition of the book is further enriched with the addition of a number of case histories in which the analyses and designs were carried out by adopting rock mass parameters as per RMR, Q or GSI. The consequence of such an approach is critically examined. With the adoption of parameters from joint factor, excellent performance prediction has been demonstrated for anisotropic rocks and tunnel. Various expressions developed for Kn and Ks for different conditions are included for adoption in numerical analyses. When dilatancy component is separated, the scale effect on shear response is insignificant. This edition provides a comprehensive understanding of rock mass response and enables students to tackle rock engineering problems more confidently and realistically, and therefore it will be of immense benefit to students, teachers, professionals and designers alike.
Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in concrete gravity dams. Here is what is discussed: 1. STABILITY ANALYSIS, 2. STATIC AND DYNAMIC STRESS ANALYSIS.
Introductory technical guidance for professional engineers and construction managers interested in ice engineering. Here is what is discussed: 1. INTRODUCTION, 2. ICE PROCESSES AND PROPERTIES, 3. MECHANICAL PROPERTIES OF FRESHWATER ICE, 4. FRAZIL ICE, 5. THERMAL ICE GROWTH, 6. DYNAMIC ICE COVER FORMATION, 7. ICE COVER BREAKUP.
Introductory technical guidance for civil and geotechnical engineers and construction managers interested in laboratory investigations of soils for foundations of buildings and other infrastructure, with references included. Here is what is discussed: 1. PURPOSE 2. TEST AND SAMPLE SELECTION 3. INDEX AND CLASSIFICATION TESTS 4. ENGINEERING PROPERTY TESTS - SOILS 5. ENGINEERING PROPERTY TESTS - ROCK 6. ENGINEERING PROPERTY TESTS - SHALES AND MOISTURE-SENSITIVE ROCKS 7. REFERENCES.
Introductory technical guidance for civil engineers, structural engineers and construction managers interested in structural stability of flood walls. Here is what is discussed: 1. SCOPE, 2. REPRESENTATIVE LOADING CONDITIONS, 3. RETAINING WALLS, 4. INLAND FLOOD WALLS, 5. COASTAL FLOOD WALLS, 6. STABILITY CONSIDERATIONS, 7. STABILITY CRITERIA, 8. OVERTURNING STABILITY, 9. OVERTURNING STABILITY CRITERIA, 10. OVERVIEW OF SLIDING STABILITY ANALYSIS, 11. SLIDING FACTOR OF SAFETY, 12. ASSUMPTIONS AND SIMPLIFICATIONS, 13. GENERAL WEDGE EQUATION, 14. SLIP-PLANE ANGLE, 15. SINGLE WEDGE ANALYSIS, 16. MULTIPLE WEDGE ANALYSIS, 17. SLIDING STABILITY CRITERIA, 18. DESIGN CONSIDERATIONS, 19. BEARING CAPACITY ANALYSIS, 20. SUMMARY OF DESIGN PROCEDURES.