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TRB’s National Cooperative Highway Research Program (NCHRP) Report 697: Design Guidelines for Increasing the Lateral Resistance of Highway-Bridge Pile Foundations by Improving Weak Soils examines guidance for strengthening of soils to resist lateral forces on bridge pile foundations.
TRB’s National Cooperative Highway Research Program (NCHRP) Report 697: Design Guidelines for Increasing the Lateral Resistance of Highway-Bridge Pile Foundations by Improving Weak Soils examines guidance for strengthening of soils to resist lateral forces on bridge pile foundations.
This report develops and calibrates procedures and modifies the AASHTO LRFD Bridge Design Specifications, Section 10-Foundations for the Strength Limit State Design of Shallow Foundations. The material in this report will be of immediate interest to bridge engineers and geotechnical engineers involved in the design of shallow foundations.
This book contains selected articles from the Second International Conference on Geotechnical Engineering-Iraq (ICGE-Iraq) held in Akre/Duhok/Iraq from June 22 to 23, 2021, to discuss the challenges, opportunities, and problems of geotechnical engineering in projects. Also, the conference includes modern applications in structural engineering, materials of construction, construction management, planning and design of structures, and remote sensing and surveying engineering. The ICGE-Iraq organized by the Iraqi Scientific Society of Soil Mechanics and Foundation Engineering (ISSSMFE) in cooperation with Akre Technical Institute / Duhok Polytechnic University, College of Engineering /University of Baghdad, and Civil Engineering Department/University of Technology. The book covers a wide spectrum of themes in civil engineering, including but not limited to sustainability and environmental-friendly applications. The contributing authors are academic and researchers in their respective fields from several countries. This book will provide a valuable resource for practicing engineers and researchers in the field of geotechnical engineering, structural engineering, and construction and management of projects.
Other volumes in the Wiley Series of Practical Construction Guides, edited by M.D. Morris, P.E. Construction of and on Compacted Fills Edward J. Monahan Offers practical and useful information for all those involved in the planning, specifications, and execution of earthwork construction. Aimed at showing practitioners in this field, from the architect to the fill inspector, how to avoid costly and potentially dangerous losses due to defective earth structures or fills. Aimed specifically at the nonspecialists who are routinely involved but do not consult with geotechnical specialists. 1986 (0471-87463-9) 200 pp. Construction Dewatering A Guide to Theory and Practice J. Patrick Powers Here are practical solutions to the problems of ground water control based on an amalgam of theory and practice from the author's more than 30 years' experience working on major construction and mining projects. Among the subjects covered are geology of soils, soil characteristics, hydrology of aquifers, hydrologic analysis of dewatering systems, piezometers, pumping tests, geotechnical investigation of dewatering, pump theory, ground water chemistry, piping systems, selecting a dewatering method, sumps drains, deep well systems, well-point systems, and more. 1981 (0471-69591-2) 484 pp. Construction Glossary An Encyclopedic Reference and Manual J. Stewart Stein In this reference/manual, J. Stewart Stein, AIA, FCSI, puts his extensive first-hand experience to use to help construction industry professionals through the maze of multiple meanings, historical references, and technical jargon in the construction language. The material is formatted to follow the 16 major divisions of the Construction Specifications Institute's Master Format and the Uniform Construction index's specifications format. 1986 (0471-85736-X) 1,013 pp. Paper Construction of Drilled Pier Foundations David M, Greet and William S. Gardner ".an authoritative and useful work of reference for engineers, geologists, contractors and all those who need to improve their knowledge of the equipment and techniques for bored piling and of the specifications controlling their use." --Geotechnique Focusing on foundation types, construction methods and quality control, Construction of Drilled Pier Foundations is the first of a two-volume reference that will update and expand on the groundwork established by the 15-year-old Drilled Pier Foundations. It is comprehensive, detailed, and up-to-date, with current techniques, equipment, and practice. 1986 (0471-82881-5) 246 pp.
Introduction and research approach -- Findings -- Interpretation, appraisal, and applications -- Conclusions and suggested research -- Bibliography -- Appendixes.
Pile foundations are the most common form of deep foundations that are used both onshore and offshore to transfer large superstructural loads into competent soil strata. This book provides many case histories of failure of pile foundations due to earthquake loading and soil liquefaction. Based on the observed case histories, the possible mechanisms of failure of the pile foundations are postulated. The book also deals with the additional loading attracted by piles in liquefiable soils due to lateral spreading of sloping ground. Recent research at Cambridge forms the backbone of this book with the design methodologies being developed directly based on quantified centrifuge test results and numerical analysis.The book provides designers and practicing civil engineers with a sound knowledge of pile behaviour in liquefiable soils and easy-to-use methods to design pile foundations in seismic regions. For graduate students and researchers, it brings together the latest research findings on pile foundations in a way that is relevant to geotechnical practice.
The Design of Piled Foundations, Second Edition focuses on the theories which have been advanced to predict the loads which piles will carry, both singly and when used in groups to form a piled foundation. Organized into 12 chapters, this book begins with an explanation of the utilization of piles. Subsequent chapters discuss the types of piles and their construction; pile driving by vibration; the calculation of the ultimate bearing capacity of a pile from soil properties; the settlement of single piles and the choice of a factor of safety; and piles in soft soils. Other chapters describe pile testing; piles in groups with vertical loading; horizontal forces on piles and pile group; and the durability of piles.