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Geotechnical engineers are at work worldwide, contributing to sustainable living and to the creation of safe, economic and pleasant spaces to live, work and relax. With increased pressure on space and resources, particularly in cities, their expertise becomes ever more important. This book presents the proceedings of the 5th iYGEC, International Young Geotechnical Engineers' Conference, held at Marne-la-Vallée, France, from 31 August to 1 September 2013. It is also the second volume in the series Advances in Soil Mechanics and Geotechnical Engineering. The papers included here cover topics such as laboratory and field testing, geology and groundwater, earthworks, soil behavior, constitutive modeling, ground improvement, earthquake, retaining structures, foundations, slope stability, tunnels and observational methods. The iYGEC conference series brings together students and young people at the start of their career in the geotechnical professions to share their experience, and this book will be of interest to all those whose work involves soil mechanics and geotechnical engineering. The cover shows Dieppe harbour breakwater project, Louis-Alexandre de Cessart, 1776-1777. © École Nationale des Ponts et Chaussées.
The definitive reference for driven piles. Nearly six years in the making, Pile Driving by Pile Buck is a comprehensive reference book on the history of pile driving and driven piles, the various types of piles, the equipment used to install them, the design of driven pile foundations, the installation of driven piles and the capacity verification of driven piles. Not just another theoretical exercise, Pile Driving by Pile Buck gives practical procedures and equipment configurations for the successful installation of virtually any driven pile foundations. Included with the text are a wealth of photographs without equal in this type of publication; the photos alone are worth the price of the book, and help bring the reader "on site" to understand the whole process of pile driving--one of the oldest construction techniques known.
This book provides a comprehensive guide for the analysis and design of anchor systems used for mooring offshore floating structures. Much of the experience is based on applications toward the offshore oil and gas industry, but the substantial potential for offshore renewable energy systems is addressed. The major types of anchors are described with respect to their basic design concept, advantages and limitations, appropriate framework for analysis, and observed performance. This book addresses all aspects of anchor behaviour related to anchor design including the installation performance, load capacity, deformation, and structural integrity of the anchor itself. Coverage is also provided of appurtenant components of anchor systems, in particular of anchor line/chain mechanics in the soil and water columns. Much of the material presented represents relatively new developments, including several new anchors which have been developed within the last decade, so the book will provide a useful compendium of information is largely scattered in journals and conference proceedings. This book is intended for engineers engaged in offshore geotechnics and marine engineers involved in mooring system and floating structure design. While the analytical methods presented in this text have a strong theoretical basis, the emphasis is on simplified computational formats accessible to design engineers.
Maximize your efficiency while studying for the PE Civil CBT exam by pairing the PE Civil Study Guide with Michael R. Lindeburg’s PE Civil Reference Manual PE Civil Study Guide, Seventeenth Edition provides a strategic and targeted approach to exam preparation so that you gain a competitive edge. With hundreds of entries containing helpful explanations, derivations of equations, and exam tips, the Study Guide connects the NCEES exam specifications for all five PE Civil exams to the NCEES Handbook, approved design standards, and PPI’s civil reference manuals. The Study Guide is organized to make the most of your time and is an essential tool for a successful exam experience. Relevant sections from the NCEES Handbook, design standards, and PPI’s reference manuals are clearly indicated in both summary lists for each exam specification and in each of the detailed entries covering a specific concept or equation. Referenced PPI Products: PE Civil Reference Manual Structural Depth Reference Manual for the PE Civil Exam Construction Depth Reference Manual for the PE Civil Exam Transportation Depth Reference Manual for the PE Civil Exam Water Resources and Environmental Depth Reference Manual for the PE Civil Exam Referenced Codes and Standards: 2015 International Building Code (ICC) A Policy on Geometric Design of Highways & Streets (AASHTO) AASHTO Guide for Design of Pavement Structures (AASHTO) AASHTO LRFD Bridge Design Specifications Building Code Requirements & Specification for Masonry Structures (ACI 530) Building Code Requirements for Structural Concrete & Commentary (ACI 318) Design & Construction of Driven Pile Foundations (FHWA) Design & Construction of Driven Pile Foundations—Volume I (FHWA) Design & Control of Concrete Mixtures (PCA) Design Loads on Structures During Construction (ASCE 37) Formwork for Concrete (ACI SP-4) Foundations & Earth Structures, Design Manual 7.02 Geotechnical Aspects of Pavements (FHWA) Guide for the Planning, Design, & Operation of Pedestrian Facilities (AASHTO) Guide to Design of Slabs-on-Ground (ACI 360R) Guide to Formwork for Concrete (ACI 347R) Highway Capacity Manual (TRB) Highway Safety Manual (AASHTO) Hydraulic Design of Highway Culverts (FHWA) LRFD Seismic Analysis & Design of Transportation Geotechnical Features & Structural Foundations Reference Manual (FHWA) Manual on Uniform Traffic Control Devices (FHWA) Minimum Design Loads for Buildings & Other Structures (ASCE/SEI 7) National Design Specification for Wood Construction (AWC) Occupational Safety & Health Regulations for the Construction Industry (OSHA 1926) Occupational Safety & Health Standards (OSHA 1910) PCI Design Handbook: Precast & Prestressed Concrete (PCI) Recommended Standards for Wastewater Facilities (TSS) Roadside Design Guide (AASHTO) Soils & Foundations Reference Manual—Volume I & II (FHWA) Steel Construction Manual (AISC) Structural Welding Code—Steel (AWS)
This timely book deals with a current topic, i.e. the applications of metaheuristic algorithms, with a primary focus on optimization problems in civil engineering. The first chapter offers a concise overview of different kinds of metaheuristic algorithms, explaining their advantages in solving complex engineering problems that cannot be effectively tackled by traditional methods, and citing the most important works for further reading. The remaining chapters report on advanced studies on the applications of certain metaheuristic algorithms to specific engineering problems. Genetic algorithm, bat algorithm, cuckoo search, harmony search and simulated annealing are just some of the methods presented and discussed step by step in real-application contexts, in which they are often used in combination with each other. Thanks to its synthetic yet meticulous and practice-oriented approach, the book is a perfect guide for graduate students, researchers and professionals willing to applying metaheuristic algorithms in civil engineering and other related engineering fields, such as mechanical, transport and geotechnical engineering. It is also a valuable aid for both lectures and advanced engineering students.
"This volume contains 101 papers presented at the 8th International Conference on the Application of Stress Wave Theory to Piles, held in Lisbon, Portugal in 2008." "It is divided in 14 chapters according to the conference themes: Wave mechanics applied to pile engineering; Relationship between static resistance to driving and long-term static soil resistance; Case histories involving measurementand analysis of stress waves; Dynamic monitoring of driven piles; Dynamic soil-pile interaction models - numerical and physical modeling; High-strain dynamic test; Low-strain dynamic test; Rapid-load test; Monitoring and analysis of vibratory driven piles; Correlation of dynamic and static load tests; Quality assurance of deep foundations using dynamic methods; Incorporation of dynamic testing into design codes and testing standards; Ground vibrations induced by pile motions; Dynamic measurements in ground field testing." "This conference aims to contribute to a better and more efficient professional interaction between specialized contractors, designers and academicians. By joining the contribution of all of them it was possible to elucidate the today's state-of-the-art in science, technology and practice in the application of stress wave theory to piles."--BOOK JACKET.
Piling is a fast moving field and recent years have seen major advances in theory, methods, testing procedures and equipment. Some of these changes have been driven by the need for economies and efficiency, reduced spoil production and new methods of pile bore support. Advances in theoretical analyses allow pile design to be refined so that piles and pile groups perform to better advantage. This third edition of the well established book has been comprehensively updated. It provides an accessible and well-illustrated account of design techniques, methods of testing and analysis of piles, with a marked emphasis on practice but with design methods that incorporate the most recent advances in piling theory. Piling Engineering is written for geotechnical engineers, consultants and foundation contractors. It is also a useful reference for academics and advanced students on courses in piling, practical site investigation and foundation design and construction.
TRB’s National Cooperative Highway Research Program (NCHRP) Synthesis 418: Developing Production Pile Driving Criteria from Test Pile Data provides information on the current practices used by state transportation agencies to develop pile driving criteria, with special attention paid to the use of test pile data in the process.
Residual soils are found in many parts of the world. Like other soils, they are used extensively in construction, being built upon and used as construction materials. Residual soils are formed when the processes of rock weathering proceed at a faster rate than the transport processes by water, gravity and wind, whereby much of the resulting soils will remain in place. The soil typically retains many of the characteristics of the parent rock. In a tropical region, residual soil layers can be very thick, sometimes extending for hundred of meters before reaching unweathered rock. This book has gathered state-of-the-art knowledge from a number of experienced experts working in foundation engineering in tropical residual soils. Subjects covered are: geology and formation of residual soils, site investigations, characterization and selection of parameters for foundation design, design of shallow and deep foundations which include driven piles, drilled shafts and caissons, and special topics which include design of piles in marginally-stable river banks, micro piles, Augeo pile, pile load and NDT, foundation failures and remedial works, and pile supported embankment. The book also includes a country case study on engineering geology in relation to foundation engineering in Malaysia.
This is a concise, systematic and complete treatment of the design and construction of pile foundations. Discusses pile behavior under various loadings and types of piles and their installation, including consideration of soil parameters. It provides step-by-step design procedures for piles subject to vertical loading and pullout, lateral, inclined and eccentric loads, or dynamic loads, and for piles in permafrost. Also describes load test procedures and their interpretation and buckling of long, slender piles with and without supported length. The closing chapter presents case histories of prediction and performance of piles and pile groups. Includes numerous solved problems.