Asymptotic approaches in nonlinear dynamics : new trends and applications
著者
書誌事項
Asymptotic approaches in nonlinear dynamics : new trends and applications
(Springer series in synergetics)
Springer, 1998
- : pbk
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注記
Includes bibliographical references (p. [291]-298) and index
内容説明・目次
- 巻冊次
-
ISBN 9783540638940
内容説明
This book covers developments in the field of the theory of oscillations from the diverse viewpoints, reflecting the field's multidisciplinary nature. Addressing researchers in mechanics, physics, applied mathematics, and engineering, as well as students, the book gives an introduction to the state of the art in this area and to various applications. For the first time a treatment of the asymptotic and homogenization methods in the theory of oscillations in combination with Pade approximations is presented. Because of its wealth of interesting examples this book will prove useful as an introduction to the field for novices and a reference for specialists.
目次
- Introduction: Some General Principles of Asymptotology
- Discrete Systems
- Continual Systems
- Discrete-Continuous Systems
- General References
- Detailed References
- Index.
- 巻冊次
-
: pbk ISBN 9783642720819
内容説明
This book covers developments in the theory of oscillations from diverse viewpoints, reflecting the fields multidisciplinary nature. It introduces the state-of-the-art in the theory and various applications of nonlinear dynamics. It also offers the first treatment of the asymptotic and homogenization methods in the theory of oscillations in combination with Pad approximations. With its wealth of interesting examples, this book will prove useful as an introduction to the field for novices and as a reference for specialists.
目次
1. Introduction: Some General Principles of Asymptotology..- 1.1 An Illustrative Example.- 1.2 Reducing the Dimensionality of a System.- 1.3 Continualization.- 1.4 Averaging.- 1.5 Renormalization.- 1.6 Localization.- 1.7 Linearization.- 1.8 Pade Approximants.- 1.9 Modern Computers and Asymptotic Methods.- 1.10 Asymptotic Methods and Teaching Physics.- 1.11 Problems and Perspectives.- 2. Discrete Systems.- 2.1 The Classical Perturbation Technique: an Introduction.- 2.2 Krylov-Bogolubov-Mitropolskij Method.- 2.3 Equivalent Linearization.- 2.4 Analysis of Nonconservative Nonautonomous Systems.- 2.4.1 Introduction.- 2.4.2 Nonresonance Oscillations.- 2.4.3 Oscillations in the Neighbourhood of Resonance.- 2.5 Nonstationary Nonlinear Systems.- 2.6 Parametric and Self-Excited Oscillation in a Three-Degree-of-Freedom Mechanical System.- 2.6.1 Analysed System and Equation of Motion.- 2.6.2 Transformation of the Equations of Motion to the Main Coordinates.- 2.6.3 Zones of Instability of the First Order.- 2.6.4 Calculation Examples.- 2.7 Modified Poincare Method.- 2.7.1 One-Degree-of-Freedom System.- 2.7.2 General Nonlinear Systems.- 2.8 Hopf Bifurcation.- 2.9 Stability Control of Vibro-Impact Periodic Orbit.- 2.9.1 Introduction.- 2.9.2 Control of Vibro-Impact Periodic Orbits.- 2.9.3 Stability Control.- 2.9.4 Simulation Results.- 2.10 Normal Modes of Nonlinear Systems with n Degrees of Freedom.- 2.10.1 Definition.- 2.10.2 Free Oscillations and Close Natural Frequencies.- 2.11 Nontraditional Asymptotic Approaches.- 2.11.1 Choice of Asymptotic Expansion Parameters.- 2.11.2 ?-Expansions in Nonlinear Mechanics.- 2.11.3 Asymptotic Solutions for Nonlinear Systems with High Degrees of Nonlinearity.- 2.11.4 Square-Well Problem of Quantum Theory.- 2.12 Pade Approximants.- 2.12.1 One-Point Pade Approximants: General Definitions and Properties.- 2.12.2 Using One-Point Pade Approximants in Dynamics.- 2.12.3 Matching Limit Expansions.- 2.12.4 Matching Local Expansions in Nonlinear Dynamics.- 2.12.5 Generalizations and Problems.- 3. Continuous Systems.- 3.1 Continuous Approximation for a Nonlinear Chain.- 3.2 Homogenization Procedure in the Nonlinear Dynamics of Thin-Walled Structures.- 3.2.1 Nonhomogeneous Rod.- 3.2.2 Stringer Plate.- 3.2.3 Perforated Membrane.- 3.2.4 Perforated Plate.- 3.3 Averaging Procedure in the Nonlinear Dynamics of Thin-Walled Structures.- 3.3.1 Berger and Berger-Like Equations for Plates and Shells.- 3.3.2 "Method of Freezing" in the Nonlinear Theory of Viscoelasticity.- 3.4 Bolotin-Like Approach for Nonlinear Dynamics.- 3.4.1 Straightforward Bolotin Approach.- 3.4.2 Modified Bolotin Approach.- 3.5 Regular and Singular Asymptotics in the Nonlinear Dynamics of Thin-Walled Structures.- 3.5.1 Circular Rings and Axisymmetric Cylindrical Shells.- 3.5.2 Reinforced and Isotropic Cylindrical Shells.- 3.5.3Nonlinear Oscillations of a Cylindrical Panel.- 3.5.4 Stability of Thin Spherical Shells Under Dynamic Loading.- 3.5.5 Asymptotic Investigation of the Nonlinear Dynamic Boundary Value Problem for a Rod.- 3.6 One-Point Pade Approximants Using the Method of Boundary Condition Perturbation.- 3.7 Two-Point Pade Approximants: A Plate on Nonlinear Support.- 3.8 Solitons and Soliton-Like Approaches in the Case of Strong Nonlinearity.- 3.9 Nonlinear Analysis of Spatial Structures.- 3.9.1 Introduction.- 3.9.2 Modified Envelope Equation.- 4. Discrete-Continuous Systems.- 4.1 Periodic Oscillations of Discrete-Continuous Systems with a Time Delay.- 4.1.1 The KBM Method.- 4.2 Simple Perturbation Technique.- 4.3 Nonlinear Behaviour of Electromechanical Systems.- 4.3.1 Introduction.- 4.3.2 Dynamics Equations.- 4.3.3 Averaging.- 4.3.4 Numerical Results.- General References.- Detailed References (d).
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