Mechanical vibration analysis uncertainties band control 4th Edition by Haym Benaroya, Mark Nagurka, Seon Han ISBN 1498752947 9781498752947

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ISBN 10:      1498752947
ISBN 13: 978-1498752947
Author:      Haym Benaroya, Mark Nagurka, Seon Han

Mechanical vibration analysis, uncertainties, and control 4th Table of contents:

Chapter 1: Introduction to Vibration Analysis

1.1. Introduction
1.2. Basic Concepts of Vibration
1.3. Categories of Vibration
1.4. Vibration Analysis Applications
1.5. Objective of the Book

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Chapter 2: Fundamentals of Vibration

2.1. Degrees of Freedom
2.2. Types of Vibrations
2.3. Simple Harmonic Motion
2.4. Damped Vibrations
2.5. Forced Vibrations
2.6. System Classification

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Chapter 3: Free Vibration of Single Degree-of-Freedom Systems

3.1. Equation of Motion
3.2. Natural Frequency and Mode Shapes
3.3. Solution for Free Vibration
3.4. Energy Methods
3.5. Complex Eigenvalue Analysis

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Chapter 4: Damped Vibrations of Single Degree-of-Freedom Systems

4.1. Viscous Damping Models
4.2. Damped Free Vibrations
4.3. Forced Vibrations with Damping
4.4. Measurement and Characterization of Damping
4.5. Influence of Damping on System Behavior

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Chapter 5: Forced Vibrations of Single Degree-of-Freedom Systems

5.1. Equation of Motion for Forced Vibration
5.2. Harmonic Forcing
5.3. Resonance Phenomenon
5.4. Steady-State Response
5.5. Transient Response

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Chapter 6: Multi-Degree-of-Freedom Systems

6.1. Introduction to Multi-Degree-of-Freedom Systems
6.2. Equations of Motion for Multiple Degrees of Freedom
6.3. Natural Frequencies and Mode Shapes for Multi-DOF Systems
6.4. Modal Analysis
6.5. Normal Modes of Vibration

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Chapter 7: Vibration Control and Damping Techniques

7.1. Types of Vibration Control
7.2. Active vs. Passive Control
7.3. Vibration Absorbers
7.4. Damping Techniques and Materials
7.5. Vibration Isolation

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Chapter 8: Uncertainty and Sensitivity Analysis in Vibration Systems

8.1. Types of Uncertainty
8.2. Quantifying Uncertainty
8.3. Sensitivity Analysis of Vibration Systems
8.4. Propagation of Uncertainty in Dynamic Systems
8.5. Case Studies of Uncertainty in Vibration Analysis

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Chapter 9: Vibration of Continuous Systems

9.1. Vibrations of Beams and Rods
9.2. Vibrations of Plates and Shells
9.3. Torsional Vibrations
9.4. Wave Propagation in Continuous Systems
9.5. Vibration Modes of Continuous Systems

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Chapter 10: Modal Analysis and Experimental Techniques

10.1. Modal Testing and Identification
10.2. Frequency Response Functions (FRF)
10.3. Experimental Modal Analysis Techniques
10.4. Measurement Tools for Vibration Analysis
10.5. Case Studies Using Experimental Modal Analysis

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Chapter 11: Vibration in Engineering Applications

11.1. Vibration in Structural Engineering
11.2. Vibration in Mechanical Systems
11.3. Vibration in Automotive and Aerospace Engineering
11.4. Case Studies of Vibration Problems and Solutions

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Chapter 12: Advanced Topics in Vibration Analysis

12.1. Nonlinear Vibrations
12.2. Chaos in Vibratory Systems
12.3. Advanced Computational Methods in Vibration Analysis
12.4. Vibration of Smart Structures and Materials
12.5. Vibration in Nano-Scale Systems

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Chapter 13: Case Studies and Applications of Vibration Analysis

13.1. Vibration in Mechanical Systems: Case Study
13.2. Structural Vibration Analysis in Engineering
13.3. Aerospace Applications
13.4. Automotive Applications
13.5. Vibration in Manufacturing Systems

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Chapter 14: Conclusion and Future Directions

14.1. Summary of Key Concepts
14.2. Emerging Trends in Vibration Analysis
14.3. Future Research Directions in Vibration and Uncertainty

 

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