Vibration and Shock Handbook 1st Edition by Clarence de Silva ISBN 0849315808 9780849315800

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Product details:
ISBN 10: 0849315808
ISBN 13: 9780849315800
Author: Clarence de Silva
Every so often, a reference book appears that stands apart from all others, destined to become the definitive work in its field. The Vibration and Shock Handbook is just such a reference. From its ambitious scope to its impressive list of contributors, this handbook delivers all of the techniques, tools, instrumentation, and data needed to model, analyze, monitor, modify, and control vibration, shock, noise, and acoustics.

Providing convenient, thorough, up-to-date, and authoritative coverage, the editor summarizes important and complex concepts and results into “snapshot” windows to make quick access to this critical information even easier. The Handbook’s nine sections encompass: fundamentals and analytical techniques; computer techniques, tools, and signal analysis; shock and vibration methodologies; instrumentation and testing; vibration suppression, damping, and control; monitoring and diagnosis; seismic vibration and related regulatory issues; system design, application, and control implementation; and acoustics and noise suppression. The book also features an extensive glossary and convenient cross-referencing, plus references at the end of each chapter.

Brimming with illustrations, equations, examples, and case studies, the Vibration and Shock Handbook is the most extensive, practical, and comprehensive reference in the field. It is a must-have for anyone, beginner or expert, who is serious about investigating and controlling vibration and acoustics.

Vibration and Shock Handbook 1st Edition Table of contents:

Part I: Fundamentals of Vibration and Shock

1. Introduction to Vibration and Shock

   • Definitions and Concepts
   • Vibration vs. Shock: Key Differences
   • Importance in Engineering Applications
   • Historical Developments

2. Basic Vibrational Motion

   • Simple Harmonic Motion (SHM)
   • Damped and Undamped Vibrations
   • Forced Vibrations and Resonance
   • Frequency and Periodicity in Vibrations

3. Mathematical Tools for Vibration Analysis

   • Differential Equations of Motion
   • Fourier Series and Transform Methods
   • Complex Modal Analysis
   • Modal Superposition and Numerical Techniques

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Part II: Vibration Analysis Techniques

4. Vibration of Single-Degree-of-Freedom Systems

   • Free and Forced Vibration of SDOF Systems
   • Solution Methods for SDOF Systems
   • Vibration Isolation and Damping
   • Resonance Phenomena in SDOF Systems

5. Vibration of Multi-Degree-of-Freedom Systems

   • Basic Principles of MDOF Systems
   • Mode Shapes and Natural Frequencies
   • Normal Mode Analysis
   • Approximate Methods for MDOF Systems

6. Finite Element Methods in Vibration Analysis

   • Introduction to Finite Element Analysis (FEA)
   • Application of FEA to Vibration Problems
   • Modal Analysis Using FEA
   • Computational Tools and Software

7. Experimental Techniques in Vibration Analysis

   • Vibration Measurement and Data Acquisition
   • Vibration Sensors and Transducers
   • Modal Testing and Experimental Modal Analysis
   • Data Interpretation and Validation

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Part III: Shock and Impact Dynamics

8. Fundamentals of Shock and Impact

   • Shock vs. Vibration: Definitions and Characteristics
   • Shock Loading and Impulse Forces
   • Dynamic Response to Impact Forces
   • Shock Propagation in Materials

9. Shock Response of Mechanical Systems

   • Shock Isolation Techniques
   • Transient Response of Structures to Shock Loads
   • Damping and Energy Dissipation in Shock Systems
   • Shock Testing and Simulation

10. High-Velocity Impact and Collision Dynamics

    • Impact Analysis in Rigid and Deformable Bodies
    • Elastic and Plastic Collision Models
    • Theories of Impact and Energy Transfer
    • Applications in Automotive, Aerospace, and Manufacturing

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Part IV: Vibration and Shock in Engineering Applications

11. Vibration in Mechanical Systems

    • Vibration in Rotating Machinery
    • Bearings, Gears, and Drive Systems
    • Structural Vibration in Machines and Tools
    • Vibration Control in Industrial Equipment

12. Vibration in Civil and Structural Engineering

    • Seismic Vibration and Building Response
    • Vibration of Bridges and Transportation Structures
    • Vibration Isolation in Buildings and Infrastructure
    • Dynamic Response to Earthquakes and Wind Loads

13. Vibration and Shock in Aerospace Engineering

    • Aircraft and Spacecraft Vibrational Environments
    • Vibration in Avionics and Aerospace Systems
    • Shock Loads in Launch and Re-entry
    • Vibration Testing in Aerospace Components

14. Vibration and Shock in Automotive Engineering

    • Vehicle Dynamics and Ride Comfort
    • Impact Forces and Crash Testing
    • Noise, Vibration, and Harshness (NVH) Analysis
    • Design for Vibration and Shock Resistance in Vehicles

15. Vibration and Shock in Electronics and Consumer Products

    • Vibration in Electronic Devices and Components
    • Shock Testing for Consumer Electronics
    • Vibration Isolation in Sensitive Equipment
    • Reliability and Durability Testing of Electronics

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Part V: Advanced Topics in Vibration and Shock

16. Nonlinear Vibrations

    • Nonlinear Oscillators and Chaos Theory
    • Nonlinear Damping and Hardening/Softening Effects
    • Bifurcations and Limit Cycles
    • Numerical Methods for Nonlinear Vibration Problems

17. Coupled Vibrations and Multiphysics Systems

    • Coupling Between Structural and Acoustic Systems
    • Fluid-Structure Interaction (FSI)
    • Thermoelasticity and Heat-Induced Vibration
    • Vibroacoustic Systems and Analysis

18. Smart Materials and Active Vibration Control

    • Piezoelectric and Magnetostrictive Materials
    • Active Damping and Vibration Control Systems
    • Adaptive and Self-Healing Materials
    • Applications of Smart Materials in Vibration and Shock Control

19. Advanced Simulation Techniques in Vibration and Shock

    • Finite Element and Boundary Element Methods
    • Multibody Dynamics and Nonlinear Simulations
    • Real-Time Simulation of Vibration and Shock Response
    • Advanced Computational Tools for Engineers

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Part VI: Case Studies and Practical Applications

20. Case Studies in Vibration Engineering

    • Vibration Problems in Industry: Analysis and Solutions
    • Case Studies in Machinery, Civil Structures, and Aerospace
    • Lessons Learned from Vibration Failures and Incidents
    • Successful Applications of Vibration Control Technologies

21. Case Studies in Shock Engineering

    • Impact-Resistant Design in Automotive and Aerospace Industries
    • Shock Testing in Electronics and Military Applications
    • Case Studies of Structural Failures Due to Shock Loads
    • Mitigation Strategies for Shock and Impact Damage

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