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Structural reliability has become a discipline of international interest, addressing issues such as the safety of buildings, bridges, towers and other structures. This book addresses the important issue of predicting the safety of structures at the design stage and also the safety of existing, perhaps deteriorating structures. Attention is focused on the development and definition of limit states such as serviceability and ultimate strength, the definition of failure and the various models which might be used to describe strength and loading.
Much consideration is given to problem formulation and to the various techniques which can be applied to problem solution. These include the First Order Second Moment method and their derivatives, as well as various Monte Carlo tchniques. Each of these are described in considerable detail and example applications are given. Structural systems are also described, as is the effect of time on reliability estimation, and on the development of design code rules on the basis of limit state principles as under-pinned by probability theory. Furthermore, procedures for the reliability estimation of existing structures are also included.
The book emphasises concepts and applications, built up from basic principles and avoids undue mathematical rigour. It presents an accesible and unified account of the theory and techniques for the analysis of the reliability of engineering structures using probability theory. A balanced view of the subject is offered here not only for newcomers, but also for the more specialist reader, such as senior undergraduate and post-graduate students and practising engineers in civil, structural, geotechnical and mechanical engineering.
- Sales Rank: #1198218 in Books
- Published on: 1999-05-04
- Original language: English
- Number of items: 1
- Dimensions: 9.67" h x .98" w x 6.56" l, 1.45 pounds
- Binding: Paperback
- 456 pages
Review
: "this book will help future generations of students to become familiar with the subject......its wide scope of subjects and the level at which they are treated also make it an indispensable reference for researchers."
(Structural Safety, No. 23, 2001)
From the Back Cover
Structural reliability has become a discipline of international interest, addressing issues such as the safety of buildings, bridges, towers and other structures. This book addresses the important issue of predicting the safety of structures at the design stage and also the safety of existing, perhaps deteriorating structures. Attention is focused on the development and definition of limit states such as serviceability and ultimate strength, the definition of failure and the various models which might be used to describe strength and loading.
Much consideration is given to problem formulation and to the various techniques which can be applied to problem solution. These include the First Order Second Moment method and their derivatives, as well as various Monte Carlo tchniques. Each of these are described in considerable detail and example applications are given. Structural systems are also described, as is the effect of time on reliability estimation, and on the development of design code rules on the basis of limit state principles as under-pinned by probability theory. Furthermore, procedures for the reliability estimation of existing structures are also included.
The book emphasises concepts and applications, built up from basic principles and avoids undue mathematical rigour. It presents an accesible and unified account of the theory and techniques for the analysis of the reliability of engineering structures using probability theory. A balanced view of the subject is offered here not only for newcomers, but also for the more specialist reader, such as senior undergraduate and post-graduate students and practising engineers in civil, structural, geotechnical and mechanical engineering.
Most helpful customer reviews
0 of 0 people found the following review helpful.
The best way to understand and calibrate your code safety factors
By Alabbas
I took Structural probability in the winter term and I found this book very helpful. If you are civil engineer, you have to have this book because it shows you how to calibrate your codes such as the ACI 318 factors. The most important chapters to me was ch1-ch5.
10 of 10 people found the following review helpful.
An excellent textbook!
By F. Caleyo
I bought this book (at Amazon.com) to get a better understanding on the basic principles of structural reliability assessment (I 'm concerned with the probabilistic estimation of the remaining life of pressurized pipelines containing active corrosion defects in oil and gas distribution pipeline networks in Mexico). This thorough, well organized, volume is in my opinion the most comprehensive treatment available nowadays. It is mainly devoted to the probabilistic structural safety analysis and includes both theoretical foundations and practical examples in a coherent and logical presentation. It follows a clear step by step scheme (a quite useful feature for newcomers) covering basic issues such as measures of structural reliability and more complex and advanced topics including time dependent reliability and resistance and load modeling. The book also contains a brief on probabilistic theory which I've found very useful as a quick (and refreshing) guide. For newcomers, the first two chapters are essential to understand the subject. The author devotes the core of the book to a rigorous, detailed discussion of methods to compute probability of failure in engineering structures with simple and complex (multiple) limit state functions (and their evolution with time). The Monte Carlo integration approach, the first order methods FOM and the first order second moment methods FOSM are reviewed in detail and practical aspects of their computational implementations are given. It is to underline the excellent discussions given of limit state functions in load-resistance space which allow to clearly understand the procedures and strategies used by the above mentioned reliability methods to compute checking points, safety index and probability of failure. The last part of the book is devoted to load and resistance modeling, codes of structural reliability and probabilistic evaluation of existing structures. Civil engineers will profit this part as I did because of the lack of reliable data on load and resistance structural parameters variability (in many fields, plausible probabilistic methods can be only achieved by judiciously assuming or modeling load and resistance fluctuations, so that these chapter are welcome). This book cover this subject in some detail, emphasizing in steel and concrete members. The probabilistic reliability assessment of existing structures, the latest subject covered by the book is useful in pointing out the necessity of appropriate repairs actions on such structures, how to estimate deterioration and which actions have to be carried out in order to reduce risk levels. Some drawbacks have to be mentioned: (i) practical examples are scarce in key sections such as 1.5.3 (generalized reliability problem formulation), 1.5.4 (conditional reliability problems) and 6.6.3 (FOSM/FOR methods for unconditional failure probability), (ii) the level of abstract thinking required to understand many aspects covered by the book could result quite demanding for newcomers or readers that do not master probabilistic theory, (iii) mathematical details given for the FOSM algorithm are rather cumbersome and only two references to practical computational implementations of this method are given. As a matter of fact, I`ve preferred and used a practical implementation of this method published by M. Ahammed and R. E. Melchers (the author) in Engineering Structures(Vol. 17, No. 2, page. 74), and (v) I`ve noted some typographical errors (for example, constant b4 used in expression A.59 must be negative valued -see the book by Abramowitz, pag. 239 ). In spite of these drawbacks, I strongly recommend this book for those people concerned with the subject, especially newcomers, I repeat, this is the best available textbook in the market
1 of 2 people found the following review helpful.
Excellent book!
By C. Verzenhassi
This book is very complete and easy to read. It helped me a lot during the development of my master's dissertation.
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