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Author Sugiyama, Yoshihiko, author.

Title Dynamic stability of columns under nonconservative forces : theory and experiment / Yoshihiko Sugiyama, Mikael A. Langthjem, Kazuo Katayama.

Published Cham, Switzerland : Springer, 2019.


Location Call No. Status
Physical description 1 online resource (xiii, 236 pages) : illustrations (some color).
Series Solid mechanics and its applications, 0925-0042 ; volume 255
Solid mechanics and its applications ; v. 255. 0925-0042
Springer Engineering eBooks 2019 English+International
Bibliography Includes bibliographical references and index.
Contents Intro; Preface; Contents; 1 Fundamentals; 1.1 Beam and Column; 1.2 Stability and Stability Criteria; 1.3 Experiments with Columns; 1.4 Preliminary Tests; 1.4.1 Deflection Test; 1.4.2 Vibration Test; 1.4.3 Decaying Pendulum Motion Test; 1.4.4 Decaying Beam Motion Test; 1.5 Influence of Support Conditions; 1.6 Nonconservative Forces; 1.7 Discussion; References; 2 Columns under Conservative Forces; 2.1 Cantilevered Columns; 2.2 Pinned-Pinned Columns; 2.3 Standing Cantilevered Columns; 2.4 Discussion; References; 3 Columns under a Follower Force; 3.1 Beck's Column; 3.2 Vibrations of Beck's Column
3.3 Stability in a Finite Time Interval3.4 Character of Beck's Column; 3.5 Nonconservative Nature of a Follower Force; 3.6 Discussion; References; 4 Columns with Damping; 4.1 Cantilevered Columns with Damping; 4.2 Stability Analysis; 4.3 Beck's Column with Damping Introduced; 4.3.1 Internal Damping Only; 4.3.2 External Damping Only; 4.3.3 Both Internal and External Damping; 4.4 Pflüger's Column with Internal Damping; 4.5 Dynamic Responses; 4.6 Discussion; References; 5 Energy Consideration on the Role of Damping; 5.1 Energy Considerations; 5.2 Equation of Motion and Stability Analysis
5.3 Energy Expressions5.3.1 Energy Balance Equations; 5.3.2 Energy Balance at the Critical Force; 5.3.3 Discretized Energy Equations; 5.4 Flutter Configurations and Phase Angle Functions; 5.5 Energy Balance with Small Internal Damping; 5.6 Energy Balance with Both Internal and External Damping; 5.7 Energy Growth Rate; 5.8 Introduction of Small Internal Damping at the Undamped Flutter Bound; 5.9 Discussion; References; 6 Cantilevered Pipes Conveying Fluid; 6.1 Basic Equations of Motion; 6.2 Finite Element Formulation; 6.3 Eigenvalue Branches Related to Flutter; 6.4 Flutter Configurations
6.5 Effect of Internal Damping6.6 Discussion; References; 7 Cantilevered Pipes with a Mechanical Element; 7.1 Pipes with an Elastic Spring; 7.2 Pipes with a Lumped Mass; 7.3 Pipes with a Damper; 7.4 Coefficient of Damping of a Dashpot Damper; 7.5 Discussion; References; 8 Columns under a Follower Force with a Constant Line of Action; 8.1 Reut's Column; 8.2 Stability Analysis of a Generalized Reut's Column; 8.3 Approximate Solution by the Galerkin Method; 8.4 Non-Self-Adjointness of Boundary Value Problems; 8.5 Discussion; References; 9 Generalized Reut's Column; 9.1 Stability Analysis
9.2 Realization of Reut Force9.3 Experimental Setup; 9.4 Experimental Results; 9.5 Reut's Column with a Damper; 9.6 Discussion; References; 10 Columns under a Rocket-Based Follower Force; 10.1 Equation of Motion and Stability Analysis; 10.2 Rocket Motors; 10.3 Test Columns; 10.4 Preliminary Tests; 10.4.1 Test for Bending Stiffness; 10.4.2 Test for Damping Coefficients; 10.4.3 Buckling Test; 10.5 Flutter Test; 10.5.1 Outline of the Test; 10.5.2 Test Runs; 10.5.3 Test Results; 10.5.4 Effect of the Size of the Motor; 10.5.5 Stability in a Finite Time Interval; 10.6 Discussion; References
Other author Langthjem, Mikael A., author.
Katayama, Kazuo, author.
SpringerLink issuing body.
Subject Structural dynamics.
Electronic books.
Electronic books.
ISBN 9783030005726 (electronic bk.)
3030005720 (electronic bk.)
9783030005719 (print)
Standard Number 10.1007/978-3-030-00572-6