Overview

Most physical systems lose or gain stability through bifurcation behavior. This book explains a series of experimentally found bifurcation phenomena by means of the methods of static bifurcation theory.

Full Product Details

9781441970756

Table of Contents

Reviews

From the reviews: MATHEMATICAL REVIEWS The book is an excellent source of practical applications for mathematicians working in this field. It fulfills its goal of helping close the gap between mathematical and engineering practice in bifurcation analysis, especially of geomaterials such as sand and soil. A short set of exercises at the end of each chapter makes the book more useful as a text. The book is well organized and quite readable for non-specialists. The present book gives a wide and deep description of imperfect bifurcation behaviour in engineering problems. ... the book offers a number of systematic methods based on contemporary mathematics. ... On balance, the reviewed book is very useful as it develops a modern static imperfect bifurcation theory and fills the gap between mathematical theory and engineering practice. (Boris V. Loginov, Zentralblatt MATH, Vol. 1005, 2003) The book is unique in considering the experimental identification of material-dependent bifurcations in structures such as sand, Kaolin (clay), soil and concrete shells. ... These are studied statistically. ... The book is an excellent source of practical applications for mathematicians working in this field. ... A short set of exercises at the end of each chapter makes the book more useful as a text. The book is well organized and quite readable for non-specialists. (Henry W. Haslach, Jr., Mathematical Reviews, Issue 2003 f) The current book is a graduate-level text that presents an overview of imperfections and the prediction of the initial post-buckling response of a system. ... Imperfect Bifurcation in Structures and Materials provides an extensive range of material on the role of imperfections in stability theory. It would be suitable for a graduate-level course on the subject or as a reference to research workers in the field. (J Petrolito, Applied Mechanics Reviews, Vol. 56 (3), 2003) This book is a comprehensive treatment of the static bifurcation problems found in (mainly civil/structural) engineering applications. ... The text is well written and regularly interspersed with illustrative examples. The mathematical formalism is kept to a minimum and the 194 figures break up the text and make this a highly readable and informative book. ... In summary a comprehensive treatment of the subject which is very well put together and of interest to all researchers working in this area: recommended. (David Wagg, UK Nonlinear News, November, 2002)

From the reviews: MATHEMATICAL REVIEWS ""The book is an excellent source of practical applications for mathematicians working in this field. It fulfills its goal of helping close the gap between mathematical and engineering practice in bifurcation analysis, especially of geomaterials such as sand and soil. A short set of exercises at the end of each chapter makes the book more useful as a text. The book is well organized and quite readable for non-specialists."" ""The present book gives a wide and deep description of imperfect bifurcation behaviour in engineering problems. ... the book offers a number of systematic methods based on contemporary mathematics. ... On balance, the reviewed book is very useful as it develops a modern static imperfect bifurcation theory and fills the gap between mathematical theory and engineering practice."" (Boris V. Loginov, Zentralblatt MATH, Vol. 1005, 2003) ""The book is unique in considering the experimental identification of material-dependent bifurcations in structures such as sand, Kaolin (clay), soil and concrete shells. ... These are studied statistically. ... The book is an excellent source of practical applications for mathematicians working in this field. ... A short set of exercises at the end of each chapter makes the book more useful as a text. The book is well organized and quite readable for non-specialists."" (Henry W. Haslach, Jr., Mathematical Reviews, Issue 2003 f) ""The current book is a graduate-level text that presents an overview of imperfections and the prediction of the initial post-buckling response of a system. ... Imperfect Bifurcation in Structures and Materials provides an extensive range of material on the role of imperfections in stability theory. It would be suitable for a graduate-level course on the subject or as a reference to research workers in the field."" (J Petrolito, Applied Mechanics Reviews, Vol. 56 (3), 2003) ""This book is a comprehensive treatment of the static bifurcation problems found in (mainly civil/structural) engineering applications. ... The text is well written and regularly interspersed with illustrative examples. The mathematical formalism is kept to a minimum and the 194 figures break up the text and make this a highly readable and informative book. ... In summary a comprehensive treatment of the subject which is very well put together and of interest to all researchers working in this area: recommended."" (David Wagg, UK Nonlinear News, November, 2002)

From the reviews: MATHEMATICAL REVIEWS The book is an excellent source of practical applications for mathematicians working in this field. It fulfills its goal of helping close the gap between mathematical and engineering practice in bifurcation analysis, especially of geomaterials such as sand and soil. A short set of exercises at the end of each chapter makes the book more useful as a text. The book is well organized and quite readable for non-specialists. The present book gives a wide and deep description of imperfect bifurcation behaviour in engineering problems. ! the book offers a number of systematic methods based on contemporary mathematics. ! On balance, the reviewed book is very useful as it develops a modern static imperfect bifurcation theory and fills the gap between mathematical theory and engineering practice. (Boris V. Loginov, Zentralblatt MATH, Vol. 1005, 2003) The book is unique in considering the experimental identification of material-dependent bifurcations in structures such as sand, Kaolin (clay), soil and concrete shells. ! These are studied statistically. ! The book is an excellent source of practical applications for mathematicians working in this field. ! A short set of exercises at the end of each chapter makes the book more useful as a text. The book is well organized and quite readable for non-specialists. (Henry W. Haslach, Jr., Mathematical Reviews, Issue 2003 f) The current book is a graduate-level text that presents an overview of imperfections and the prediction of the initial post-buckling response of a system. ! Imperfect Bifurcation in Structures and Materials provides an extensive range of material on the role of imperfections in stability theory. It would be suitable for a graduate-level course on the subject or as a reference to research workers in the field. (J Petrolito, Applied Mechanics Reviews, Vol. 56 (3), 2003) This book is a comprehensive treatment of the static bifurcation problems found in (mainly civil/structural) engineering applications. ! The text is well written and regularly interspersed with illustrative examples. The mathematical formalism is kept to a minimum and the 194 figures break up the text and make this a highly readable and informative book. ! In summary a comprehensive treatment of the subject which is very well put together and of interest to all researchers working in this area: recommended. (David Wagg, UK Nonlinear News, November, 2002)

Author Information

Kiyohiro Ikeda is a Professor in the Department of Civil Engineering, Graduate School of Engineering at Tohoku University. Kazuo Murota is a Professor in the Department of Mathematical Informatics, Graduate School of Information Science and Technology at University of Tokyo.

Tab Content 6

Customer Reviews

Recent Reviews

Countries Available