Stress, Strain, and Structural Dynamics : An Interactive Handbook of Formulas, Solutions, and MATLAB Toolboxes.
Title:
Stress, Strain, and Structural Dynamics : An Interactive Handbook of Formulas, Solutions, and MATLAB Toolboxes.
Author:
Yang, Bingen.
ISBN:
9780080541877
Personal Author:
Physical Description:
1 online resource (961 pages)
Contents:
Front Cover -- Stress, Strain, and Structural Dynamics: An Interactive Handbook of Formulas, Solutions, and MATLAB Toolboxes -- Copyright Page -- Contents -- Preface -- Acknowledgements -- Chapter 1. Introduction -- 1.1. The Making of This Book -- 1.2. How to Use This Book -- Part I: Strength of Materials -- Chapter 2. Static Analysis of Euler-Bernoulli Beams -- 2.1. Getting Started -- 2.2. Beam Theory -- 2.3. Static Analysis by the Toolbox -- 2.4. Moments of Inertia of Beam Cross-Section Area -- 2.5. Quick Solution Guide -- 2.6. References -- Chapter 3. Static Analysis of Bars, Shafts, and Strings -- 3.1. Getting Started -- 3.2. System Description -- 3.3. Static Analysis by the Toolbox -- 3.4. Stepped Bars and Shafts -- 3.5. The Distributed Transfer Function Method -- 3.6. Quick Solution Guide -- 3.7. References -- Chapter 4. Buckling Analysis of Columns -- 4.1. Getting Started -- 4.2. Uniform Columns -- 4.3. Stepped and Nonuniform Columns -- 4.4. The Distributed Transfer Function Method -- 4.5. Quick Solution Guide -- 4.6. References -- Chapter 5. Stress Analysis in Two-Dimensional Problems -- 5.1. Getting Started -- 5.2. Plane Stress and Strain -- 5.3. Quick Solution Guide -- 5.4. References -- Part II: Structural Mechanics -- Chapter 6. Static Analysis of Constrained Multispan Beams -- 6.1. Getting Started -- 6.2. System Description -- 6.3. Solution by the Toolbox -- 6.4. The Distributed Transfer Function Method -- 6.5. Quick Solution Guide -- 6.6. References -- Chapter 7. Static Analysis of Plane Trusses -- 7.1. Getting Started -- 7.2. System Description -- 7.3. Solution by the Toolbox -- 7.4. The Stiffness Method -- 7.5. Quick Solution Guide -- 7.6. References -- Chapter 8. Static Analysis of Plane Frames -- 8.1. Getting Started -- 8.2. System Description -- 8.3. Solution by the Toolbox -- 8.4. The Distributed Transfer Function Method.
8.5. Quick Solution Guide -- 8.6. References -- Part III: Dynamics and Vibrations -- Chapter 9. Dynamics of Particles and Rigid Bodies -- 9.1. Getting Started -- 9.2. Dynamics of Particles -- 9.3. Dynamics of Rigid Bodies in Plane Motion -- 9.4. Rigid Body Dynamics in Three Dimensions -- 9.5. Quick Solution Guide -- 9.6. References -- Chapter 10. Vibration Analysis of One-Degree-of-Freedom Systems -- 10.1. Getting Started -- 10.2. System Description -- 10.3. Time Response -- 10.4. Analytical Vibration Solutions -- 10.5. Frequency Response -- 10.6. Response to Periodic Excitation -- 10.7. Nonlinear Vibration -- 10.8. Quick Solution Guide -- 10.9. References -- Chapter 11. Vibration and Control of Multiple-Degree-of-Freedom Systems -- 11.1. Getting Started -- 11.2. System Description -- 11.3. Dynamic Response -- 11.4. Dynamic Vibration Absorption -- 11.5. Transfer Function Formulation -- 11.6. Feedback Control -- 11.7. Quick Solution Guide -- 11.8. References -- Part IV: Structural Dynamics -- Chapter 12. Dynamics and Control of Euler-Bernoulli Beams -- 12.1. Getting Started -- 12.2. System Description -- 12.3. Dynamic Response -- 12.4. Feedback Control -- 12.5. Dynamics and Control of Nonuniform Beams -- 12.6. Quick Solution Guide -- 12.7. References -- Chapter 13. Dynamic Analysis of Bars, Shafts, and Strings -- 13.1. Getting Started -- 13.2. System Description -- 13.3. Dynamic Response -- 13.4. Free Vibration of Stepped Systems -- 13.5. Quick Solution Guide -- 13.6. References -- Chapter 14. Dynamic Analysis of Constrained, Combined, and Stepped Beams -- 14.1. Getting Started -- 14.2. Constrained Beams -- 14.3. Combined Beams -- 14.4. Stepped Beams -- 14.5. Quick Solution Guide -- 14.6. References -- Part V: Two-Dimensional Elastic Continua -- Chapter 15. Static Analysis of Linearly Elastic Bodies -- 15.1. Getting Started.
15.2. Theory of Linear Elasticity -- 15.3. Elasticity Problems in Two Dimensions -- 15.4 Finite Element Method for 2-D Elasticity Problems -- 15.5. Quick Solution Guide -- 15.6. References -- Chapter 16. Free Vibration of Membranes and Plates -- 16.1. Getting Started -- 16.2. Free Vibration of Membranes -- 16.3. Free Vibration of Rectangular Plates -- 16.4. Free Vibration of Circular Plates -- 16.5. Quick Solution Guide -- 16.6. References -- Appendix A: Commonly Used Mathematical Formulas -- A.1. Algebraic Formulas -- A.2. Areas and Volumes of Common Shapes -- A.3. Trigonometry -- A.4. Hyperbolic Functions -- A.5. Derivatives and Integration -- A.6. Series Expansion -- A.7. Analytical Geometry -- A.8. Vector Analysis -- A.9. Matrix Theory -- A.10. Complex Numbers and Complex Functions -- A.11. Laplace Transforms -- A.12. Inverse Laplace Transform via Partial Fraction Expansion -- Appendix B: MATLAB Basics -- B.1. Getting Started -- B.2. Matrix and Vector Manipulations -- B.3. Graphics -- B.4. M-Files -- B.5. Control Flow -- B.6. Solution of Algebraic and Differential Equations -- B.7. Control System Toolbox -- Appendix C: The Distributed Transfer Function Method -- C.1. DTFM for One-Dimensional Continua -- C.2. Transfer Function Synthesis of Multibody Structures -- C.3. DTFM for Two- and Three-Dimensional Problems -- C.4. References -- Appendix D: Conversion of Units -- Appendix E: Mechanical Properties of Engineering Materials -- Index.
Abstract:
Stress, Strain, and Structural Dynamics is a comprehensive and definitive reference to statics and dynamics of solids and structures, including mechanics of materials, structural mechanics, elasticity, rigid-body dynamics, vibrations, structural dynamics, and structural controls. This text integrates the development of fundamental theories, formulas and mathematical models with user-friendly interactive computer programs, written in the powerful and popular MATLAB. This unique merger of technical referencing and interactive computing allows instant solution of a variety of engineering problems, and in-depth exploration of the physics of deformation, stress and motion by analysis, simulation, graphics, and animation. This book is ideal for both professionals and students dealing with aerospace, mechanical, and civil engineering, as well as naval architecture, biomechanics, robotics, and mechtronics. For engineers and specialists, the book is a valuable resource and handy design tool in research and development. For engineering students at both undergraduate and graduate levels, the book serves as a useful study guide and powerful learning aid in many courses. And for instructors, the book offers an easy and efficient approach to curriculum development and teaching innovation. * Combines knowledge of solid mechanics--including both statics and dynamics, with relevant mathematical physics and offers a viable solution scheme. * Will help the reader better integrate and understand the physical principles of classical mechanics, the applied mathematics of solid mechanics, and computer methods. * The Matlab programs will allow professional engineers to develop a wider range of complex engineering analytical problems, using closed- solution methods to test against numerical and other open-ended methods. * Allows for solution of higher order problems at
earlier engineering level than traditional textbook approaches.
Local Note:
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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Electronic Access:
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