The Dynamical Behaviour of Structures
Structures and Solid Body Mechanics Series
2nd Edition
Published on 18. May 2014
362 pages
978-1-4831-8778-5 (ISBN)
Description
The Dynamical Behaviour of Structures explores several developments made in the field of structural dynamics. The text provides innovative means to identify the effect of earthquakes on buildings of various types. The mathematical aspect of beam vibrations is discussed in detail, and the different types of vibrations are also explained. The book gives a comprehensive discussion of the reactions of beams to moving loads; the vibrations of beam systems; and the beams on elastic foundations. The second part of the book focuses on the vibrations of plates and shells. In this section, an introduction is given to vibrations of rectangular and circular plates. The analysis of cylindrical and shallow shells then follows. The final chapter of the book discusses the structural vibrations that are influenced by its surrounding or underlying medium. The changes in these structures are then evaluated. The text can provide invaluable insights for civil engineers, architects, students, and researchers in the field of mechanics.
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Geoffrey Barratt Warburton
The Dynamical Behaviour of Structures
Book
01/1976
2nd Edition
Pergamon
€11.50
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Content
Preface to the Second Edition1. Systems with One Degree of Freedom 1.1. Introduction 1.2. General Equation of Motion 1.3. Free Vibration 1.4. Response to Harmonic Excitation 1.5. Energy Expressions 1.6. Hysteretic Damping 1.7. Transient Response 1.8. Random Processes 1.9. Random Vibrations Problems2. Systems With Several Degrees of Freedom 2.1. Free Vibrations (Two-Degree-of-Freedom Systems) 2.2. Response to Harmonic Excitation (Two-Degree-of-Freedom Systems) 2.3. Transient Response (Two-Degree-of-Freedom Systems) 2.4. General Equations 2.5. Free Undamped Vibration 2.6. Response by the Normal Mode Method 2.7. Response to Harmonic Excitation 2.8. Numerical Integration Methods 2.9. Random Vibrations Problems3. Vibrations of Beams-I 3.1. Extensional Vibrations 3.2. Torsional Vibrations 3.3. Flexural Vibrations: Natural Frequencies of Uniform Beams 3.4. Response of a Beam to an Applied Force: General Theory 3.5. Response of a Uniform Beam to a Harmonic Applied Force 3.6. Response of a Beam to a Transient Force 3.7. Natural Frequencies of Non-Uniform Beams by the Rayleigh-Ritz Method 3.8. Response of Non-Uniform Beams by the Rayleigh-Ritz Method 3.9. Finite Element Method Applied to Beam Vibrations Problems4. Vibrations of Beams-II 4.1. Response to Moving Loads 4.2. Response of Uniform Beams to Time-Dependent Boundary Conditions 4.3. Effect of an Axial Force on Flexural Vibrations 4.4. Beams on Elastic Foundations 4.5. Vibrations of Beam Systems 4.6. Shear Deformation and Rotatory Inertia 4.7. Dynamic Response of Rigid-Plastic Beams Problems5. Vibrations of Plates and Shells 5.1. General Theory 5.2. Transverse Vibrations of Rectangular Plates 5.3. Transverse Vibrations of Circular Plates 5.4. Finite Element Method for in-Plane Vibrations of Plates 5.5. Finite Element Method for Transverse Vibrations of Plates 5.6. Vibrations of Shells: General Comments 5.7. Cylindrical Shells 5.8. Shallow Shells 5.9. Finite Element Method for Shell Vibrations Problems6. Dynamic Interaction Problems 6.1. G Round-Structure Dynamic Interaction 6.2. Fluid-Structure Dynamic Interaction 6.3. Wind-Induced Vibrations of StructuresAppendix 1. Fourier TransformsAppendix 2. Some Properties of MatricesAppendix 3. Orthogonality Conditions for BeamsAppendix 4. The Lagrange EquationAppendix 5. Eigenvalue EconomizersReferencesPrincipal NotationAnswers to ProblemsIndex
