Rock falls can be a public safety issue. This book provides comprehensive information on identification of these hazards, and design and construction of protection methods.
Rock Fall Engineering
describes first, the theoretical background to rock fall behavior in terms of the impact and trajectory phases of rock falls, and second, how this information is applied to modeling of rock falls and the design of ditches, fences and sheds. The theory of rock fall behavior is verified by comparing the calculations with five carefully documented case studies.
The book covers four main topics as follows:
Describes causes of rock falls, including geology, climate and topography, and provides detailed documentation on rock fall impacts and trajectories at five sites with a wide variety of topographic and geologic features Discusses theory of impact mechanics, and its application to velocity and energy changes during impacts and trajectories Reviews methods of modeling rock fall events, and presents analyses for the five case studies Examines rock fall protection in terms of selecting appropriate method(s) for site conditions, and design principles in which the objective is to absorb impact energy in an efficient manner
This book, which contains many worked examples, is of interest to practitioners and researchers working in the fields of geological engineering and natural hazards.
Duncan C. Wyllie
is a principal with Wyllie & Norrish Rock Engineers in Vancouver, Canada, and a registered professional engineer in British Columbia. He has worked on rock fall hazard projects involving the design and construction protection measures since the 1970s. He is the author of Foundations on Rock, Second Edition, and Rock Slope Engineering, Fourth Edition, both published by CRC Press.
By:
Duncan C. Wyllie (Wyllie & Norrish Rock Engineers Ltd. Vancouver Canada)
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions:
Height: 254mm,
Width: 178mm,
Weight: 500g
ISBN: 9781138077621
ISBN 10: 1138077623
Pages: 270
Publication Date: 31 March 2017
Audience:
Professional and scholarly
,
College/higher education
,
Undergraduate
,
Primary
Format: Paperback
Publisher's Status: Active
Rock Falls—Causes and Consequences. Documentation of Rock Fall Events. Rock Fall Velocities and Trajectories. Impact Mechanics. Coefficient of Restitution. Energy Changes during Impacts and Trajectories. Rock Fall Modeling. Selection of Protection Structures. Design Principles of Rock Fall Protection Structures. Rock Fall Protection I—Barriers, Nets, and Fences. Rock Fall Protection II—Rock Sheds. Appendices: Impact Mechanics—Normal Coefficient of Restitution, Impact Mechanics—Impact of Rough, Rotating Bodies, Energy Loss Equations, Conversion Factors. References.
Duncan C. Wyllie has a physics degree from the University of London and engineering degrees from the University the New South Wales, Australia and the University of California, Berkeley. He is a principal with Wyllie & Norrish Rock Engineers in Vancouver, Canada, and a registered professional engineer in British Columbia. Duncan Wyllie has lectured widely and has also authored or co-authored a number of textbooks on applied rock mechanics including Foundations on Rock (1st and 2nd editions in 1989 and 2001), and Rock Slope Engineering, Fourth Edition (2002), both published by Taylor & Francis.
Reviews for Rock Fall Engineering
This book provides an invaluable perspective to engineers and geologists dealing with rock slope failures: not so much what causes the failures in the first instance, but what happens to the rock masses as they move, and therefore how to analyse them. I don't think that there is a good, systematic, treatment elsewhere. --Eddie Bromhead, retired from Kingston University, London, UK ... a comprehensive book containing both the theory and practice of rock fall engineering. The author is experienced not only in these subjects but also in compiling books that present the material in a particularly easy-to-understand manner-which will be appreciated by all readers whether they be engineers, contractors, clients, researchers, teachers or students. In short, this book contains the necessary information to understand and design rock fall protection. -Emeritus Professor John A. Hudson, Imperial College London
