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Introductory technical guidance for civil engineers, geotechnical engineers and construction managers interested in engineering properties of soil and rock. Here is what is discussed: 1. SCOPE, 2. COMPACTION CHARACTERISTICS OF SOIL, 3. DENSITY OF COHESIONLESS SOILS, 4. PERMEABILITY, 5., CONSOLIDATION, 6. SWELLING, SHRINKAGE AND COLLAPSIBILITY, 7. SHEAR STRENGTH OF SOILS, 8. ELASTIC PROPERTIES, 9. MODULUS OF SUBGRADE REACTION, 10. COEFFICIENT OF AT-REST EARTH PRESSURE.
Introductory technical guidance for civil and geotechnical engineers interested in engineering properties of soil and rock. Here is what is discussed: 1. SCOPE 2. COMPACTION CHARACTERISTICS OF SOIL 3. DENSITY OF COHESIONLESS SOILS 4. PERMEABILITY 5. CONSOLIDATION 6. SWELLING, SHRINKAGE AND COLLAPSIBILITY 7. SHEAR STRENGTH OF SOILS 8. ELASTIC PROPERTIES 9. MODULUS OF SUBGRADE REACTION 10. COEFFICIENT OF AT-REST EARTH PRESSURE.
Engineering Properties of Soils and Rocks, Second Edition provides a survey of the engineering properties of the major types of soil and rock. The book is comprised of nine chapters that tackle the various aspects of soils and rocks. Chapter 1 covers the origin of soil and the basis of soil classifications. Chapters 2 to 5 discuss the different types of soils, such as coarse grained soils, cohesive soils, and organic soils. Chapter 6 deals with the engineering behavior of rock masses, while Chapter 7 talks about the engineering classifications of weathered rocks and rock masses. Chapter 8 discusses the engineering properties of rocks, and Chapter 9 covers subsurface waters and ground conditions. The text will be of great use to both undergraduate students and practitioners of engineering geology, civil engineering, and mining engineering.
This book presents a one-stop reference to the empirical correlations used extensively in geotechnical engineering. Empirical correlations play a key role in geotechnical engineering designs and analysis. Laboratory and in situ testing of soils can add significant cost to a civil engineering project. By using appropriate empirical correlations, it is possible to derive many design parameters, thus limiting our reliance on these soil tests. The authors have decades of experience in geotechnical engineering, as professional engineers or researchers. The objective of this book is to present a critical evaluation of a wide range of empirical correlations reported in the literature, along with typical values of soil parameters, in the light of their experience and knowledge. This book will be a one-stop-shop for the practising professionals, geotechnical researchers and academics looking for specific correlations for estimating certain geotechnical parameters. The empirical correlations in the forms of equations and charts and typical values are collated from extensive literature review, and from the authors' database.
Introductory technical guidance for civil and geotechnical engineers interested in engineering properties of soil and rock. Here is what is discussed: 1. SCOPE 2. COMPACTION CHARACTERISTICS OF SOILS 3. DENSITY OF COHESIONLESS SOILS 4. PERMEABILITY 5. CONSOLIDATION 6. SWELLING, SHRINKAGE, AND COLLAPSIBILITY 7. SHEAR STRENGTH OF SOILS 8. ELASTIC PROPERTIES 9. MODULUS OF SUBGRADE REACTION 10. COEFFICIENT OF AT-REST EARTH PRESSURE 11. PROPERTIES OF INTACT ROCK 12. PROPERTIES OF TYPICAL SHALES.
Introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in design and construction of coffer dams. Here is what is discussed: 1. INTRODUCTION, 2. PLANNING, LAYOUT, AND ELEMENTS OF COFFERDAMS, 3. GEOTECHNICAL CONSIDERATIONS, 4. FOUNDATION TREATMENT, 5. SOURCES AND PROPERTIES OF CELL FILL, 6. SEEPAGE CONTROL, 7. FOUNDATION UNDERSEEPAGE, 8. SEISMIC CONSIDERATIONS.
This volume addresses the multi-disciplinary topic of engineering geology and the environment, one of the fastest growing, most relevant and applied fields of research and study within the geosciences. It covers the fundamentals of geology and engineering where the two fields overlap and, in addition, highlights specialized topics that address principles, concepts and paradigms of the discipline, including operational terms, materials, tools, techniques and methods as well as processes, procedures and implications. A number of well known and respected international experts contributed to this authoritative volume, thereby ensuring proper geographic representation, professional credibility and reliability. This superb volume provides a dependable and ready source of information on approximately 300 topical entries relevant to all aspects of engineering geology. Extensive illustrations, figures, images, tables and detailed bibliographic citations ensure that the comprehensively defined contributions are broadly and clearly explained. The Encyclopedia of Engineering Geology provides a ready source of reference for several fields of study and practice including civil engineers, geologists, physical geographers, architects, hazards specialists, hydrologists, geotechnicians, geophysicists, geomorphologists, planners, resource explorers, and many others. As a key library reference, this book is an essential technical source for undergraduate and graduate students in their research. Teachers/professors can rely on it as the final authority and the first source of reference on engineering geology related studies as it provides an exceptional resource to train and educate the next generation of practitioners.
Paul Guyer is a registered civil engineer, mechanical engineer, fire protection engineer and architect with 35 years of experience designing buildings and related infrastructure. For an additional 9 years he was a principal staff advisor to the California Legislature on capital outlay and infrastructure issues. He is a graduate of Stanford University and has held numerous national, state and local offices with the American Society of Civil Engineers, Architectural Engineering Institute and National Society of Professional Engineers. He is a Fellow of ASCE, AEI and CABE (U.K.).
An essential text bringing together geology and engineering. Gives guidance for civil engineers. Explores engineering projects from a geological point of view.
Introductory technical guidance for civil engineers and other professional engineers and construction managers interested in design and construction of levees. Here is what is discussed: 1. FIELD INVESTIGATIONS, 2. LEVEE CONSTRUCTION METHODS, 3. SEEPAGE, SLOPE AND SETTLEMENT, 4. BERMS, FILTERS AND DRAINS, 5. SOIL CEMENT FOR PROTECTION OF LEVEES, 6. SPECIAL FEATURES.