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Most geotechnical books on soil mechanics or foundations focus exclusively on the needs of engineers. But the increasing complexity of the construction environment requires construction and engineering managers to know more about engineering requirements. Soils in Construction provides students in those disciplines with the necessary background to make informed decisions about soils. Every chapter of the Sixth Edition has been thoroughly updated, with all examples made even more clear and easier for students to follow. Many photos illustrate the concepts and applications of soils and geotechnical structures throughout the book. An appendix detailing lab procedures allow the book to serve those courses with a lab component while still maintaining flexibility for those without.
This book covers the field of applied geotechnology related to all aspects of construction in ground, including compacted fill, excavations, ground improvement, foundations, earth retaining systems and geotechnical site characterization. It suits the first year of a graduate course on ground improvement and geoconstruction and will suit practicing engineers, both consultants and contractors. Distinctively it covers the identification of problematic soils and appropriate mitigation measures, and the inspection of ground construction work. It combines the technical and the practical in applied geotechnology.
Contains state-of-the-art papers covering fundamental areas of soft ground mechanical behavior, geochemistry, and links between the two. In addition, there are several papers on state-of-the-art practice, historical overviews, and case studies in soft ground construction.
Concluding the trilogy on geological materials in construction, this authoritative volume reviews many uses of clays, ranging from simple fills to sophisticated products. Comprehensive and international coverage is achieved by an expert team, including geologists, engineers and architects. Packed with information prepared for a wide readership, this unique handbook is also copiously illustrated. The volume is dedicated to the memory of Professor Sir Alec Skempton. Various definitions of 'clay' are explored. Clay mineralogy is described, plus the geological formation of clay deposits and their fundamental materials properties. World and British clay deposits are reviewed and explained. New compositional data are provided for clay formations throughout the stratigraphic column. Investigative techniques and interpretation are considered, ranging from site exploration to laboratory assessment of composition and engineering performance. Major civil engineering applications are addressed, including earthworks, earthmoving and specialized roles utilizing clays. Traditional earthen building is included and shown to dominate construction in places. Clay-based construction materials are detailed, including bricks, ceramics and cements. The volume also includes a comprehensive glossary.
Your guide to the design and construction of foundations on expansive soils Foundation Engineering for Expansive Soils fills a significant gap in the current literature by presenting coverage of the design and construction of foundations for expansive soils. Written by an expert author team with nearly 70 years of combined industry experience, this important new work is the only modern guide to the subject, describing proven methods for identifying and analyzing expansive soils and developing foundation designs appropriate for specific locations. Expansive soils are found worldwide and are the leading cause of damage to structural roads. The primary problem that arises with regard to expansive soils is that deformations are significantly greater than in non-expansive soils and the size and direction of the deformations are difficult to predict. Now, Foundation Engineering for Expansive Soils gives engineers and contractors coverage of this subject from a design perspective, rather than a theoretical one. Plus, they'll have access to case studies covering the design and construction of foundations on expansive salts from both commercial and residential projects. Provides a succinct introduction to the basics of expansive soils and their threats Includes information on both shallow and deep foundation design Profiles soil remediation techniques, backed-up with numerous case studies Covers the most commonly used laboratory tests and site investigation techniques used for establishing the physical properties of expansive soils If you're a practicing civil engineer, geotechnical engineer or contractor, geologist, structural engineer, or an upper-level undergraduate or graduate student of one of these disciplines, Foundation Engineering for Expansive Soils is a must-have addition to your library of resources.
So Your Home is Built on Expansive Soils: A Discussion on How Expansive Soils Affect Buildings, Second Edition, is written for the layperson in clear, easy-to-understand terms to assist homeowners in understanding why some soils and conditions lead to problematic shrinking and swelling. Both the nature of the soil behavior and how buildings respond are addressed. This comprehensively updated report discusses the difference between cosmetic damage and structural damage resulting from soil shrinkage or heave movement and provides information on both prevention and mitigation of damage
This text describes basic geotechnical materials, testing procedures and expected material properties as these factors affect construction projects. The book provides guidance and field solutions for dealing with, improving and using geotechnical materials in engineering construction projects. Data is synthesized in a concise and functional format which includes applications. It deals with construction procedures rather than design.
A generation of construction-management students has learned from the easy-to-follow, understandable material in Soils in Construction. By keeping math simple and emphasizing construction operations and applications over engineering theory, the authors have created an ideal resource for non-technical, management-focused courses. Students interested in the field applications of soils will gain the knowledge they need to interact confidently with geotechnical engineers in their careers. The book’s extensive discussion of soil materials in the first five chapters is supplemented by an appendix describing testing methods that can easily be adapted to the hands-on component of a course. The remaining seven chapters cover the role that soil materials play in various aspects of construction contracting. Every chapter ends with problems presenting students with the kinds of scenarios they’ll face in the field.
Soils are the most common and complex type of construction material. Virtually all structures are either built with soil (e.g., earth dams and embankments), in soil (e.g., tunnels and underground storage facilities), or on soil (e.g., building foundations and roads). Soil conditions and load combinations are unique to each site. To be able to predict soil behavior under the anticipated loading conditions, the mechanics of soils should be well understood, and their specific properties evaluated. The project design should also take into consideration the environmental, social, and economic factors. The five-volume book series delivers a comprehensive coverage of topics in geotechnical engineering practice. The unique design of the text allows the user to look up a topic of interest and be able to find, in most cases, the related information all on the same sheet with related figures and tables, eliminating the need for figure and table referral numbers. In a way, each page is a capsule of information on its own, yet, related to the subject covered in that chapter. The topics covered in all five volumes will assist the reader with becoming a licensed professional engineer (PE) and a licensed geotechnical engineer (GE). Volume 1 contains chapters 1 through 7, which provides the user with a practical guide on the fundamentals of soil mechanics, including: Natural Soil Deposits, Soil Composition and Properties, Soil Improvement, Soil Water, Soil Stresses, Soil Compressibility and Settlement, and Shear Strength of Soil. Example problems follow the topic they cover. Several practice problems are included at the end of each chapter with the answers provided. It also contains the necessary forms, tables, and graphing papers for the state-of-the-practice laboratory experiments in soil mechanics.
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.