A thorough knowledge of geology is essential in the design and construction of infrastructures for transport, buildings and mining operations; while an understanding of geology is also crucial for those working in urban, territorial and environmental planning and in the prevention and mitigation of geohazards. Geological Engineering provides an interpretation of the geological setting, integrating geological conditions into engineering design and construction, and provides engineering solutions that take into account both ground conditions and environment. This textbook, extensively illustrated with working examples and a wealth of graphics, covers the subject area of geological engineering in four sections:Fundamentals: soil mechanics, rock mechanics and hydrogeology Methods: site investigations, rock mass characterization and engineering geological mapping Applications: foundations, slope stability, tunnelling, dams and reservoirs and earth works Geohazards: landslides, other mass movements, earthquake hazards and prevention and mitigation of geological hazards As well as being a textbook for graduate and postgraduate students and academics, Geological Engineering serves as a basic reference for practicing engineering geologists and geological and geotechnical engineers, as well as civil and mining engineers dealing with design and construction of foundations, earth works and excavations for infrastructures, buildings, and mining operations.
Author(s): Luis Gonzalez de Vallejo; Mercedes Ferrer
Edition: Hardcover
Publisher: CRC Press
Year: 2011
Language: English
Pages: 678
Tags: Structural Geology;Engineering Geology;Earth Sciences;Geology;Hydrogeology;Physical Geology;Geological Hazards;Hazards;Rock Mechanics
ABOUT THE AUTHORS xv
CONTRIBUTORS xvii
FOREWORD xix
PREFACE xxi
PART I – FUNDAMENTALS
1 Introduction to Geological Engineering 3
2 Soil mechanics and engineering geology of sediments 19
3 Rock mechanics 109
4 Hydrogeology 223
PART II – METHODS
5 Site investigation 263
6 Rock mass description and characterisation 327
7 Engineering geological mapping 351
PART III – APPLICATIONS
8 Foundations 369
9 Slopes 401
10 Tunnels 451
11 Dams and reservoirs 501
12 Earth structures 535
PART IV – GEOLOGICAL HAZARDS
13 Landslides and other mass movements 555
14 Seismic hazard 595
15 Prevention of geological hazards 625
APPENDIX A Charts for circular and wedge failure analysis 643
APPENDIX B Pressure units conversion CHART 653
APPENDIX C Symbols and acronyms 657
APPENDIX D LIST OF BOXES 663
APPENDIX E PERMISSIONS TO REPRODUCE FIGURES AND TABLES 665
Index 671