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Introductory technical guidance for civil and geotechnical engineers interested in soil mechanics. Here is what is discussed: 1. INTRODUCTION 2. ANALYSIS OF STRESS CONDITIONS 3. INSTANTANEOUS SETTLEMENT 4. PRIMARY AND SECONDARY SETTLEMENTS 5. TOLERABLE AND DIFFERENTIAL SETTLEMENT 6. METHODS OF REDUCING OR ACCELERATING SETTLEMENT 7. ANALYSIS OF VOLUME EXPANSION 8. REFERENCES.
Introductory technical guidance for civil and geotechnical engineers and other professional engineers and construction managers interested in geotechnical and soils engineering. Here is what is discussed: 1. BEARING CAPACITY ANALYSIS 2. DISTRIBUTION OF STRESSES IN SOIL 3. ENGINEERING PROPERTIES OF SOIL AND ROCK 4. LABORATORY TESTING OF SOILS 5. SEEPAGE AND DRAINAGE 6. SETTLEMENT AND VOLUME EXPANSION 7. SLOPE STABILITY ANALYSIS 8. SOIL GROUTING.
Soil Mechanics - Version 2 is designed as a comprehensive reference book on both soil mechanics and soil testing. With over 700 pages, we have included, in their entirety, the most common laboratory procedures for soils testing, which is rare to see in soil mechanics textbooks. This manual is primarily intended for the active practitioner in the field, although it is certainly a useful reference for students.
This excellent handbook combines four technical manuals covering Site Investigations, Laboratory Testing of Soils and basic Soils Engineering applicable to the Planning, Design and Construction of Pile Foundations and other major Civil Structures. Our manual reviews the various methods of conducting site investigations and laboratory and field testing, preliminary to project design. Covering the basics of soils identification procedures and goes on to settlement behavior, seepage, slope stability and other important subjects. Detailing some more difficult technical subjects including seismic activity and vibrations to some of the modern solutions for soils stabilization such as vibro-flotation and cement or chemical grouting methods.
About the application of engineering principles by experienced engineers of soil mechanics in the design of foundations and earth structure for naval shore facilities. Includes identification and classification of soil and rock, field exploration, testing, and instrumentation, laboratory testing, distribution of stresses and pressures on buried structures, analysis of settlement and volume expansion, seepage and drainage, slope stability and protection.
This publication provides introductory technical guidance for civil engineers, geotechnical engineers and other professional engineers and construction managers interested in field and laboratory investigation for foundations of buildings and other infrastructure in expansive soil. Here is what is discussed: 1. INTRODUCTION 2. RECOGNITION OF PROBLEM AREAS 3. FIELD EXPLORATION 4. LABORATORY INVESTIGATIONS.
Frozen Ground Engineering first introduces the reader to the frozen environment and the behavior of frozen soil as an engineering material. In subsequent chapters this information is used in the analysis and design of ground support systems, foundations, and embankments. These and other topics make this book suitable for use by civil engineering students in a one-semester course on frozen ground engineering at the senior or first-year-graduate level. Students are assumed to have a working knowledge of undergraduate mechanics (statics and mechanics of materials) and geotechnical engineering (usual two-course sequence). A knowledge of basic geology would be helpful but is not essential. This book will also be useful to advanced students in other disciplines and to engineers who desire an introduction to frozen ground engineering or references to selected technical publications in the field. BACKGROUND Frozen ground engineering has developed rapidly in the past several decades under the pressure of necessity. As practical problems involving frozen soils broadened in scope, the inadequacy of earlier methods for coping became increasingly apparent. The application of ground freezing to geotechnical projects throughout the world continues to grow as significant advances have been made in ground freezing technology. Freezing is a useful and versatile technique for temporary earth support, groundwater control in difficult soil or rock strata, and the formation of subsurface containment barriers suitable for use in groundwater remediation projects.