Vibration Damping, Control, and Design: 1st Edition (Hardback) book cover

Vibration Damping, Control, and Design

1st Edition

Edited by Clarence W. de Silva

CRC Press

634 pages | 355 B/W Illus.

Purchasing Options:$ = USD
Hardback: 9781420053210
pub: 2007-04-05
$170.00
x
eBook (VitalSource) : 9780429146343
pub: 2007-04-05
from $28.98


FREE Standard Shipping!

Description

Reducing and controlling the level of vibration in a mechanical system leads to an improved work environment and product quality, reduced noise, more economical operation, and longer equipment life. Adequate design is essential for reducing vibrations, while damping and control methods help further reduce and manipulate vibrations when design strategies reach their limits. There are also useful types of vibration, which may require enhancement or control. Vibration Damping, Control, and Design balances theoretical and application-oriented coverage to enable optimal vibration and noise suppression and control in nearly any system.

Drawn from the immensely popular Vibration and Shock Handbook, each expertly crafted chapter of this book includes convenient summary windows, tables, graphs, and lists to provide ready access to the important concepts and results. Working systematically from general principles to specific applications, coverage spans from theory and experimental techniques in vibration damping to isolation, passive control, active control, and structural dynamic modification. The book also discusses specific issues in designing for and controlling vibrations and noise such as regenerative chatter in machine tools, fluid-induced vibration, hearing and psychological effects, instrumentation for monitoring, and statistical energy analysis. This carefully edited work strikes a balance between practical considerations, design issues, and experimental techniques.

Complemented by design examples and case studies, Vibration Damping, Control, and Design builds a deep understanding of the concepts and demonstrates how to apply these principles to real systems.

Reviews

"The book, issued in excellent graphic conditions, is recommended to engineers and technicians in industry and laboratories, researchers, instructors, and students in areas of vibration, shock, noise and acoustics."

– Mihail Megan,in Zentralblatt Math, 2009

Table of Contents

VIBRATION DAMPING; Vibration Damping Clarence W. de Silva

Introduction

Types of Damping

Representation of Damping in Vibration Analysis

Measurement of Damping

Interface Damping

DAMPING THEORY; Randall D. Peters

Preface

Introduction

Background

Hysteresis - More Details

Damping Models

Measurements of Damping

Hysteretic Damping

Failure of the Common Theory

Air Influence

Noise and Damping

Transform Methods

Hysteretic Damping

Internal Friction

Mathematical Tricks - Linear Damping Approximations

Internal Friction Physics

Zener Model

Toward a Universal Model of Damping

Nonlinearity

Concluding Remark

EXPERIMENTAL TECHNIQUES IN DAMPING; Randall D. Peters

Electronic Considerations

Data Processing

Sensor Choices

Damping Examples

Driven Oscillators with Damping

Oscillator with Multiple Nonlinearities

Multiple Modes of Vibration

Internal Friction as Source of Mechanical Noise

Viscous Damping - Need for Caution

Air Influence

STRUCTURE AND EQUIPMENT ISOLATION; Y.B. Yang, L.Y. Lu, and J.D. Yau

Introduction

Mechanisms of Base-Isolated Systems

Structure-Equipment Systems with Elastomeric Bearings

Sliding Isolation Systems

Sliding Isolation Systems with Resilient Mechanism

Issues Related to Seismic Isolation Design

VIBRATION CONTROL; Nader Jalili and Ebrahim Esmailzadeh

Introduction

Vibration-Control Systems Concept

Vibration-Control Systems Design and Implementation

Practical Considerations and Related Topics

HELICOPTER ROTOR TUNING; Kourosh Danai

Introduction

Neural Network-Based Tuning

Probability-Based Tuning

Adaptive Tuning

Case Study

Conclusion

VIBRATION DESIGN AND CONTROL; Clarence W. de Silva

Introduction

Specification of Vibration Limits

Vibration Isolation

Balancing of Rotating Machinery

Balancing of Reciprocating Machines

Whirling of Shafts

Design through Modal Testing

Passive Control of Vibration

Active Control of Vibration

Control of Beam Vibrations

Appendix 7A: MATLAB Control Systems Toolbox

STRUCTURAL DYNAMIC MODIFICATION AND SENSITIVITY ANALYSIS; Su Huan Chen

Introduction

Structural Dynamic Modification of Finite Element Model

Perturbation Method of Vibration Modes

Design Sensitivity Analysis of Structural Vibration Modes

High-Accuracy Modal Superposition for Sensitivity Analysis of Modes

Sensitivity of Eigenvectors for Free-Free Structures

Matrix Perturbation Theory for Repeated Modes

Matrix Perturbation Method for Closely Spaced Eigenvalues

Matrix Perturbation Theory for Complex Modes

VIBRATION IN ROTATING MACHINERY; H. Sam Samarasekera

Introduction

Vibration Basics

Rotordynamic Analysis

Vibration Measurement and Techniques

Vibration Control and Diagnostics

REGENERATIVE CHATTER IN MACHINE TOOLS; Robert G. Landers

Introduction

Chatter in Turning Operations

Chatter in Face-Milling Operations

Time-Domain Simulation

Chatter Detection

Chatter Suppression

Case Study

FLUID-INDUCED VIBRATION; Seon M. Han

Description of the Ocean Environment

Fluid Forces

Examples

SOUND LEVELS AND DECIBELS; S. Akishita

Introduction

Sound Wave Characteristics

Levels and Decibels

HEARING AND PSYCHOLOGICAL EFFECTS; S. Akishita

Introduction

Structure and Function of the Ear

Frequency and Loudness Response

Hearing Loss

Psychological Effects of Noise

NOISE CONTROL CRITERIA AND REGULATIONS; S. Akishita

Introduction

Basic Ideas behind Noise Policy

Legislation

Regulation

Measures of Noise Evaluation

INSTRUMENTATION; Kiyoshi Nagakura

Sound Intensity Measurement

Mirror-Microphone System

Microphone Array

SOURCE OF NOISE; S. Akishita

Introduction

Radiation of Sound

DESIGN OF ABSORPTION; Teruo Obata

Introduction

Fundamentals of Sound Absorption

Sound-Absorbing Materials

Acoustic Characteristic Computation

Compound Wall

Attenuation of Lined Ducts

Attenuation of Dissipative Mufflers

General Considerations

Practical Example of Dissipative Muffler

DESIGN OF REACTIVE MUFFLERS; Teruo Obata

Introduction

Fundamental Equations

Effects of Reactive Mufflers

Calculation Procedure

Application Range of Model

Practical Example

DESIGN OF SOUND INSULATION; Kiyoshi Okura

Theory of Sound Insulation

Application of Sound Insulation

STATISTICAL ENERGY ANALYSIS; Takayuki Koizumi

Introduction

Power Flow Equations

Estimation of SEA Parameters

Application in Structures

INDEX

About the Series

Mechanical and Aerospace Engineering Series

Learn more…

Subject Categories

BISAC Subject Codes/Headings:
SCI041000
SCIENCE / Mechanics / General
TEC009070
TECHNOLOGY & ENGINEERING / Mechanical