Foundations & Soil Mechanics

Foundation Design: Principles and Practices (2nd Edition)

Using a design-oriented approach that addresses geotechnical, structural, and construction aspects of foundation engineering, this book explores practical methods of designing structural foundations, while emphasizing and explaining how and why foundations behave the way they do. It explains the theories and experimental data behind the design procedures, and how to apply this information to real-world problems. Covers general principles (performance requirements, soil mechanics, site exploration and characterization); shallow foundations (bearing capacity, settlement, spread footings -- geotechnical design, spread footings -- structural design, mats); deep foundations (axial load capacity -- full-scale load tests, static methods, dynamic methods; lateral load capacity; structural design); special topics (foundations on weak and compressible soils, foundation on expansive soils, foundations on collapsible soils); and earth retaining structures (lateral earth pressures, cantilever retaining walls, sheet pile walls, soldier pile walls, internally stabilized earth retaining structures). For geotechnical engineers, soils engineers, structural engineers, and foundation engineers.

Principles of Foundation Engineering

Braja M. Das' Sixth Edition of PRINCIPLES OF FOUNDATION ENGINEERING maintains the careful balance of current research and practical field applications that has made it the leading text in foundation engineering courses. Featuring a wealth of worked-out examples and figures that help students with theory and problem-solving skills, the book introduces civil engineering students to the fundamental concepts and application of foundation analysis design. Throughout, Das emphasizes the judgment needed to properly apply the theories and analysis to the evaluation of soils and foundation design as well as the need for field experience. The sixth edition contains many new homework and worked-out problems.

Geotechnical Engineering: Principles and Practices

Rigorous and technically deep -- yet accessible -- this up-to-date introduction to geotechnical engineering explores both the principles of soil mechanics and their application to engineering practice -- emphasizing the role of geotechnical engineering in real design projects. An accompanying CD provides supplementary software developed specifically for learning purposes -- e.g., SETTRATE. Discusses site exploration and characterization; soil composition; soil classification; excavation, grading, and compacted fill; groundwater -- fundamentals and applications; stress; compressibility and settlement; rate of consolidation; strength; stability of earth slope; dams and levees; lateral earth pressures and retaining walls; structural foundations; difficult soils; soil improvement; and geotechnical earthquake engineering. Makes extensive use of photographs and example problems. For geotechnical engineers, soils engineers, ground engineers, structural engineers, and civil engineers.

Geotechnical Earthquake Engineering (Prentice-Hall International Series in Civil Engineering and Engineering Mechanics)

This is the first book on the market focusing specifically on the topic of geotechnical earthquake engineering. The book draws from the fields of seismology and structural engineering to present a broad, interdiciplinary view of the fundamental concepts in seismology, geotechnical engineering, and structural engineering.

Soil Mechanics in Engineering Practice

This book is one of the best-known and most respected books in geotechnical engineering. In its third edition, it presents both theoretical and practical knowledge of soil mechanics in engineering. It features expanded coverage of vibration problems, mechanics of drainage, passive earth pressure, and consolidation.

Workbook: Homework & Character Book, SIMPLIFIED VERSION for Chinese Link: Zhongwen Tiandi Simplified Character Version

Dynamics of Structures: Theory and Applications to Earthquake Engineering (2nd Edition)

This second edition includes many topics encompassing the theory of structural dynamics and the application of this theory regarding earthquake analysis, response, and design of structures. Covers the inelastic design spectrum to structural design; energy dissipation devices; Eurocode; theory of dynamic response of structures; structural dynamics theory; and more. Ideal for readers interested in Dynamics of Structures and Earthquake Engineering.

Essentials of Soil Mechanics and Foundations: Basic Geotechnics (7th Edition)

"Essentials of Soil Mechanics and Foundations: Basic Geotechnics, 7/e" provides a clear, detailed presentation of soil mechanics: the background and basics, the engineering properties and behavior of soil deposits, and the application of soil mechanics theories. This new edition features a separate chapter on earthquakes, a more logical organization, and new material relating to pile foundations design and construction and soil permeability. It's rich applications, well illustrated examples, end-of-chapter problems and detailed explanations make it an excellent reference for practicing engineers, architects, geologists, environmental specialists, and more! Covers new developments in geotechnical topics such as: Soil Properties and Analyses Pile Foundation Design and Testing Micropiles Soil Nail Walls Launched Soil Nails Soil Improvment Includes a more extensive scope of topics and clear, well developed presentations. Emphasizes how subject material can be used in the field. An excellent reference for practicing engineers, architects, geologists, environmental specialists and construction materials testing laboratories.

Designing with Geosynthetics (5th Edition)

Geosynthetic materials have entered the mainstream in the professional arena and are no longer considered new construction material. Professionals need to keep up with the nuances of how geosynthetics work. Emphasizes design by function; overviews all types of geosynthetics, with stand-alone units on particular materials. Uses S.I. units for all problems and examples. Expands coverage of containers and tubes in the geotextile chapter. Discusses walls and slope design, including seismic analysis, in the geogrid chapter. Treats wet landfills, agricultural waste, waste stability, and dam waterproofing in the geomembrane chapter. Discusses new products and related performances in the geosynthetic clay liner chapter. Discusses new products and related behavior, including fiber reinforcement and wall drainage, in the geocomposite chapter. Adds a completely new chapter on geofoam. A useful reference for transportation, geotechnical, environmental, and hydraulics professionals and engineers.

Soils and Foundations (7th Edition)

Written in a clear, direct style, this practical book introduces readers to the essentials of soil mechanics and foundations. Major emphasis is given to design and practical applications, which are supported by basic theory. Now in its seventh edition, it includes new material on soil consistency, overconsolidated clay, degree of consolidation, vibroflotation and the settlement of sand. KEY TOPICS Chapter topics cover formation of natural soil deposits, engineering properties of soils, soil exploration, soil compaction and stabilization, water in soil, stress distribution in soil, consolidation of soil and settlement of structures, shear strength of soil, shallow foundations, pile foundations, drilled shaft foundations, lateral earth pressure, retaining structures, and stability analysis of slopes. For civil engineers, civil engineering technologists, and geotechnical engineers.