Railway Geotechnics

" pleasing to see a book direct attention so thoroughly at the mechanics of granular materials and soils. In that sense, it has the potential to effectively supersede the very popular Selig and Waters book. well-written and very nicely illustrated a very useful book to all concerned with railway substructures. this is a book that I expect to take a prominent place in the rather short list of references available to the railway engineer."N. H. Thom, University of Nottingham, UK" a welcome addition to some of the already very popular books in this area I expect this book to cover the best practices in railway geotechnics from around the globe and will be a useful reference to rail practitioners and researchers alike."Buddhima Indraratna, University of Wollongong, Australia" offers a very comprehensive and in-depth and up-to-date treatment of the important and often-neglected subject of railway geotechnics. The material presented. together with the accessible style of writing and the reputation of all of the authors, would be sufficient encouragement for me to have the book on my shelf."Michael Burrow, University of Birmingham, UK

Auteur

Dr. Dingqing Li is executive director and senior scientist, Government Programs and Engineering Services, with the Transportation Technology Center, Inc, a subsidiary of the Association of American Railroads. He has more than 25 years of research, testing, modeling, consulting, and academic experience in railway engineering, and has published more than 200 technical papers and reports. Dr. Li received his Ph.D in civil engineering from the University of Massachusetts Amherst in 1994, and received his B.S. and M.S. degrees from Central South University in China. Dr. Li is a registered professional engineer, and is a member of AREMA and ASCE.

Dr. James (Jim) Hyslip is president of HyGround Engineering (Williamsburg, Massachusetts), where he provides consulting services in the areas of railway and geotechnical engineering. Dr. Hyslip has more than 25 years of experience in railroad engineering and geotechnical consulting, including positions as track supervisor (roadmaster) and engineer of soil mechanics at the Consolidated Rail Corporation (Conrail). Additionally, he was a geotechnical engineer with GeoMechanics, Inc. (Pittsburgh, Pennsylvania). Dr. Hyslip has engineering degrees from Bucknell University, the University of Pittsburgh, and the University of Massachusetts Amherst, and is registered in the USA as a professional engineer.

Dr. Theodore (Ted) Sussmann is a civil engineer with a focus on railroad geotechnical infrastructure engineering. He has 20 years of experience in characterizing track materials and structural response for safety and reliability evaluation, life-cycle cost assessment, and maintenance planning to support infrastructure sustainability. Dr. Sussmann teaches civil engineering at the University of Hartford, and has led track research at the Volpe Center. He was a research fellow at the University of Massachusetts Amherst, where he received his B.S.C.E. (Ma

Texte du rabat

Links Geotechnics with Railway Track Engineering and Railway Operation Good railway track and railway operations depend on good geotechnics, in several different ways and at varying levels. Railway Geotechnics covers track, track substructure, load environment, materials, mechanics, design, construction, measurements, and management. Illustrated by case studies, with an emphasis on the geotechnical aspects of railway engineering, it discusses these topics from a historical perspective. It also presents the methodologies and best practices developed over the past 20 years. Written by Four Experienced Professionals This book: Emphasizes the practical aspects and best practices for railway track and substructure Contains guidelines for design, construction, and maintenance of railway track and substructure Provides many examples and case studies Railway Geotechnics is written primarily for professionals and graduate students, and begins with the fundamentals and basic principles, leading in to practical applications. The authors bring considerable experience and expertise, with many years of research and development, academia, railway operations, and consulting.

Résumé
Illustrated with case studies that emphasize the geotechnical aspects of railway engineering, this reference covers track, track substructure, load environment, materials, mechanics, design, construction, measurements, and management. It discusses these topics from a historical perspective, and presents the methodologies and best practices devel

Contenu

Track. Loading. Substructure. Mechanics. Design. Drainage. Slopes. Measurements. Management. Case Studies. References.