How Does Soil Behave and Why Does It Behave That Way? Soil Mechanics Fundamentals and Applications, Second Edition effectively explores the nature of soil, explains the principles of soil mechanics, and examines soil as an engineering material. This latest edition includes all the fundamental concepts of soil mechanics, as well as an introduction to foundation engineering, including coverage of site exploration, shallow and deep foundation design, and slope stability. It presents the material in a systematic, step-by-step manner, and contains numerous problems, examples, and solutions. New to the Second Edition: The revised text expands the contents to include an introductory foundation engineering section to make the book cover the full range of geotechnical engineering. The book includes three new chapters: Site Exploration, Deep Foundations, and Slope Stability. This text: Provides an introductory chapter on soil mechanics Explores the origin and description of soils and discusses soil shapes and gradations Presents the unique characteristics of clays Details soil classifications by the Unified Soil Classification System (also ASTM) and by the American Association of State Highway and Transportation Officials (AASHTO) Highlights laboratory and field compaction techniques, including field specification and density testing, , and the CBR (California Bearing Ratio) method Discusses the flow of water through soils, defining hydraulic heads, as well as the two-dimensional flow net technique and a systematic approach to compute boundary water pressures Examines the concept of effective stress and its applications to various soil mechanics problems Explores stress increments in a soil mass due to various types of footing load on the ground Presents Terzaghias one-dimensional consolidation theory and its applications Covers Mohras circle from geotechnical perspectives with use of the pole, which is utilized in chapters relating to shear strength and lateral earth pressure Addresses the shear strength of soils, failure criteria, and laboratory as well as field shear strength determination techniques Evaluates at-rest earth pressure and the classic Rankine and Coulomb active and passive pressure theories and present critical review of those methods Reviews introductory foundation engineering and site exploration Describes the bearing capacity theory and, as an application, the shallow foundation design procedure Covers deep and shallow foundation design procedures Explains slope stability problems and remediation procedures, and more Soil Mechanics Fundamentals and Applications, Second Edition is a concise and thorough text that explains soilas fundamental behavior and its applications to foundation designs and slope stability problems and incorporates basic engineering science knowledge with engineering practices and practical applications.Compaction is a physical process to decrease the voids of soil by static or dynamic loading. For example, granular soils are easily compacted by vibration, while saturated cohesive soils cannot be well compacted by dynamic loads because of ... As will be discussed in Chapter 13, the N60 value is the modified SPT blow count adjusted to 60% hammer ... to many practical design values in foundation engineering practice. emin and emax are determined in the laboratory as follows 65anbsp;...
|Title||:||Soil Mechanics Fundamentals and Applications, Second Edition|
|Author||:||Isao Ishibashi, Hemanta Hazarika|
|Publisher||:||CRC Press - 2015-04-10|