Description

Book Synopsis

An advanced look at vibration analysis with a focus on active vibration suppression

As modern devices, from cell phones to airplanes, become lighter and more flexible, vibration suppression and analysis becomes more critical. Vibration with Control, 2nd Edition includes modelling, analysis and testing methods. New topics include metastructures and the use of piezoelectric materials, and numerical methods are also discussed. All material is placed on a firm mathematical footing by introducing concepts from linear algebra (matrix theory) and applied functional analysis when required.

Key features:

  • Combines vibration modelling and analysis with active control to provide concepts for effective vibration suppression.
  • Introduces the use of piezoelectric materials for vibration sensing and suppression.
  • Provides a unique blend of practical and theoretical developments.
  • Examines nonlinear as w

    Table of Contents

    Preface xi

    About the Companion Website xiii

    1 Single Degree of Freedom Systems 1

    1.1 Introduction 1

    1.2 Spring-Mass System 1

    1.3 Spring-Mass-Damper System 6

    1.4 Forced Response 10

    1.5 Transfer Functions and Frequency Methods 17

    1.6 Complex Representation and Impedance 23

    1.7 Measurement and Testing 25

    1.8 Stability 28

    1.9 Design and Control of Vibrations 31

    1.10 Nonlinear Vibrations 35

    1.11 Computing and Simulation in MatlabTM 38

    Chapter Notes 43

    References 44

    Problems 46

    2 Lumped Parameter Models 49

    2.1 Introduction 49

    2.2 Modeling 52

    2.3 Classifications of Systems 56

    2.4 Feedback Control Systems 57

    2.5 Examples 59

    2.6 Experimental Models 64

    2.7 Nonlinear Models and Equilibrium 65

    Chapter Notes 67

    References 68

    Problems 68

    3 Matrices and the Free Response 71

    3.1 Introduction 71

    3.2 Eigenvalues and Eigenvectors 71

    3.3 Natural Frequencies and Mode Shapes 77

    3.4 Canonical Forms 86

    3.5 Lambda Matrices 91

    3.6 Eigenvalue Estimates 94

    3.7 Computation Eigenvalue Problems in MATLAB 101

    3.8 Numerical Simulation of the Time Response in MATLABtm 104

    Chapter Notes 106

    References 107

    Problems 108

    4 Stability 113

    4.1 Introduction 113

    4.2 Lyapunov Stability 113

    4.3 Conservative Systems 116

    4.4 Systems with Damping 117

    4.5 Semidefinite Damping 118

    4.6 Gyroscopic Systems 119

    4.7 Damped Gyroscopic Systems 121

    4.8 Circulatory Systems 122

    4.9 Asymmetric Systems 123

    4.10 Feedback Systems 128

    4.11 Stability in the State Space 131

    4.12 Stability of Nonlinear Systems 133

    Chapter Notes 137

    References 138

    Problems 139

    5 Forced Response of Lumped Parameter Systems 143

    5.1 Introduction 143

    5.2 Response via State SpaceMethods 143

    5.3 Decoupling Conditions and Modal Analysis 148

    5.4 Response of Systems with Damping 152

    5.5 Stability of the Forced Response 155

    5.6 Response Bounds 157

    5.7 Frequency Response Methods 158

    5.8 Stability of Feedback Control 161

    5.9 Numerical Simulations in Matlab 163

    Chapter Notes 165

    References 166

    Problems 167

    6 Vibration Suppression 171

    6.1 Introduction 171

    6.2 Isolators and Absorbers 172

    6.3 OptimizationMethods 175

    6.4 Metastructures 179

    6.5 Design Sensitivity and Redesign 181

    6.6 Passive and Active Control 184

    6.7 Controllability and Observability 188

    6.8 Eigenstructure Assignment 193

    6.9 Optimal Control 196

    6.10 Observers (Estimators) 203

    6.11 Realization 208

    6.12 Reduced-Order Modeling 210

    6.13 Modal Control in State Space 216

    6.14 Modal Control in Physical Space 219

    6.15 Robustness 224

    6.16 Positive Position Feedback Control 226

    6.17 Matlab Commands for Control Calculations 229

    Chapter Notes 233

    References 234

    Problems 237

    7 Distributed Parameter Models 241

    7.1 Introduction 241

    7.2 Equations of Motion 241

    7.3 Vibration of Strings 247

    7.4 Rods and Bars 252

    7.5 Vibration of Beams 256

    7.6 Coupled Effects 263

    7.7 Membranes and Plates 267

    7.8 Layered Materials 271

    7.9 Damping Models 273

    7.10 Modeling Piezoelectric Wafers 276

    Chapter Notes 281

    References 281

    Problems 283

    8 Formal Methods of Solutions 287

    8.1 Introduction 287

    8.2 Boundary Value Problems and Eigenfunctions 287

    8.3 Modal Analysis of the Free Response 290

    8.4 Modal Analysis in Damped Systems 292

    8.5 Transform Methods 294

    8.6 Green’s Functions 296

    Chapter Notes 300

    References 301

    Problems 301

    9 Operators and the Free Response 303

    9.1 Introduction 303

    9.2 Hilbert Spaces 304

    9.3 Expansion Theorems 308

    9.4 Linear Operators 309

    9.5 Compact Operators 315

    9.6 Theoretical Modal Analysis 317

    9.7 Eigenvalue Estimates 318

    9.8 Enclosure Theorems 321

    Chapter Notes 324

    References 324

    Problems 325

    10 Forced Response and Control 327

    10.1 Introduction 327

    10.2 Response by Modal Analysis 327

    10.3 Modal Design Criteria 330

    10.4 Combined Dynamical Systems 332

    10.5 Passive Control and Design 336

    10.6 Distributed Modal Control 338

    10.7 Nonmodal Distributed Control 340

    10.8 State Space Control Analysis 341

    10.9 Vibration Suppression using Piezoelectric Materials 342

    Chapter Notes 344

    References 345

    Problems 346

    11 Approximations of Distributed Parameter Models 349

    11.1 Introduction 349

    11.2 Modal Truncation 349

    11.3 Rayleigh-Ritz-Galerkin Approximations 351

    11.4 Finite Element Method 354

    11.5 Substructure Analysis 359

    11.6 Truncation in the Presence of Control 361

    11.7 Impedance Method of Truncation and Control 369

    Chapter Notes 371

    References 371

    Problems 372

    12 Vibration Measurement 375

    12.1 Introduction 375

    12.2 Measurement Hardware 376

    12.3 Digital Signal Processing 379

    12.4 Random Signal Analysis 383

    12.5 Modal Data Extraction (Frequency Domain) 387

    12.6 Modal Data Extraction (Time Domain) 390

    12.7 Model Identification 395

    12.8 Model Updating 397

    12.9 Verification and Validation 398

    Chapter Notes 400

    References 401

    Problems 402

    A Comments on Units 405

    B Supplementary Mathematics 409

    Index 413

Vibration with Control

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      Publisher: John Wiley & Sons Inc
      Publication Date: 31/03/2017
      ISBN13: 9781119108214, 978-1119108214
      ISBN10: 1119108217
      Also in:
      Mechanical engineering and materials

      Description

      Book Synopsis

      An advanced look at vibration analysis with a focus on active vibration suppression

      As modern devices, from cell phones to airplanes, become lighter and more flexible, vibration suppression and analysis becomes more critical. Vibration with Control, 2nd Edition includes modelling, analysis and testing methods. New topics include metastructures and the use of piezoelectric materials, and numerical methods are also discussed. All material is placed on a firm mathematical footing by introducing concepts from linear algebra (matrix theory) and applied functional analysis when required.

      Key features:

      • Combines vibration modelling and analysis with active control to provide concepts for effective vibration suppression.
      • Introduces the use of piezoelectric materials for vibration sensing and suppression.
      • Provides a unique blend of practical and theoretical developments.
      • Examines nonlinear as w

        Table of Contents

        Preface xi

        About the Companion Website xiii

        1 Single Degree of Freedom Systems 1

        1.1 Introduction 1

        1.2 Spring-Mass System 1

        1.3 Spring-Mass-Damper System 6

        1.4 Forced Response 10

        1.5 Transfer Functions and Frequency Methods 17

        1.6 Complex Representation and Impedance 23

        1.7 Measurement and Testing 25

        1.8 Stability 28

        1.9 Design and Control of Vibrations 31

        1.10 Nonlinear Vibrations 35

        1.11 Computing and Simulation in MatlabTM 38

        Chapter Notes 43

        References 44

        Problems 46

        2 Lumped Parameter Models 49

        2.1 Introduction 49

        2.2 Modeling 52

        2.3 Classifications of Systems 56

        2.4 Feedback Control Systems 57

        2.5 Examples 59

        2.6 Experimental Models 64

        2.7 Nonlinear Models and Equilibrium 65

        Chapter Notes 67

        References 68

        Problems 68

        3 Matrices and the Free Response 71

        3.1 Introduction 71

        3.2 Eigenvalues and Eigenvectors 71

        3.3 Natural Frequencies and Mode Shapes 77

        3.4 Canonical Forms 86

        3.5 Lambda Matrices 91

        3.6 Eigenvalue Estimates 94

        3.7 Computation Eigenvalue Problems in MATLAB 101

        3.8 Numerical Simulation of the Time Response in MATLABtm 104

        Chapter Notes 106

        References 107

        Problems 108

        4 Stability 113

        4.1 Introduction 113

        4.2 Lyapunov Stability 113

        4.3 Conservative Systems 116

        4.4 Systems with Damping 117

        4.5 Semidefinite Damping 118

        4.6 Gyroscopic Systems 119

        4.7 Damped Gyroscopic Systems 121

        4.8 Circulatory Systems 122

        4.9 Asymmetric Systems 123

        4.10 Feedback Systems 128

        4.11 Stability in the State Space 131

        4.12 Stability of Nonlinear Systems 133

        Chapter Notes 137

        References 138

        Problems 139

        5 Forced Response of Lumped Parameter Systems 143

        5.1 Introduction 143

        5.2 Response via State SpaceMethods 143

        5.3 Decoupling Conditions and Modal Analysis 148

        5.4 Response of Systems with Damping 152

        5.5 Stability of the Forced Response 155

        5.6 Response Bounds 157

        5.7 Frequency Response Methods 158

        5.8 Stability of Feedback Control 161

        5.9 Numerical Simulations in Matlab 163

        Chapter Notes 165

        References 166

        Problems 167

        6 Vibration Suppression 171

        6.1 Introduction 171

        6.2 Isolators and Absorbers 172

        6.3 OptimizationMethods 175

        6.4 Metastructures 179

        6.5 Design Sensitivity and Redesign 181

        6.6 Passive and Active Control 184

        6.7 Controllability and Observability 188

        6.8 Eigenstructure Assignment 193

        6.9 Optimal Control 196

        6.10 Observers (Estimators) 203

        6.11 Realization 208

        6.12 Reduced-Order Modeling 210

        6.13 Modal Control in State Space 216

        6.14 Modal Control in Physical Space 219

        6.15 Robustness 224

        6.16 Positive Position Feedback Control 226

        6.17 Matlab Commands for Control Calculations 229

        Chapter Notes 233

        References 234

        Problems 237

        7 Distributed Parameter Models 241

        7.1 Introduction 241

        7.2 Equations of Motion 241

        7.3 Vibration of Strings 247

        7.4 Rods and Bars 252

        7.5 Vibration of Beams 256

        7.6 Coupled Effects 263

        7.7 Membranes and Plates 267

        7.8 Layered Materials 271

        7.9 Damping Models 273

        7.10 Modeling Piezoelectric Wafers 276

        Chapter Notes 281

        References 281

        Problems 283

        8 Formal Methods of Solutions 287

        8.1 Introduction 287

        8.2 Boundary Value Problems and Eigenfunctions 287

        8.3 Modal Analysis of the Free Response 290

        8.4 Modal Analysis in Damped Systems 292

        8.5 Transform Methods 294

        8.6 Green’s Functions 296

        Chapter Notes 300

        References 301

        Problems 301

        9 Operators and the Free Response 303

        9.1 Introduction 303

        9.2 Hilbert Spaces 304

        9.3 Expansion Theorems 308

        9.4 Linear Operators 309

        9.5 Compact Operators 315

        9.6 Theoretical Modal Analysis 317

        9.7 Eigenvalue Estimates 318

        9.8 Enclosure Theorems 321

        Chapter Notes 324

        References 324

        Problems 325

        10 Forced Response and Control 327

        10.1 Introduction 327

        10.2 Response by Modal Analysis 327

        10.3 Modal Design Criteria 330

        10.4 Combined Dynamical Systems 332

        10.5 Passive Control and Design 336

        10.6 Distributed Modal Control 338

        10.7 Nonmodal Distributed Control 340

        10.8 State Space Control Analysis 341

        10.9 Vibration Suppression using Piezoelectric Materials 342

        Chapter Notes 344

        References 345

        Problems 346

        11 Approximations of Distributed Parameter Models 349

        11.1 Introduction 349

        11.2 Modal Truncation 349

        11.3 Rayleigh-Ritz-Galerkin Approximations 351

        11.4 Finite Element Method 354

        11.5 Substructure Analysis 359

        11.6 Truncation in the Presence of Control 361

        11.7 Impedance Method of Truncation and Control 369

        Chapter Notes 371

        References 371

        Problems 372

        12 Vibration Measurement 375

        12.1 Introduction 375

        12.2 Measurement Hardware 376

        12.3 Digital Signal Processing 379

        12.4 Random Signal Analysis 383

        12.5 Modal Data Extraction (Frequency Domain) 387

        12.6 Modal Data Extraction (Time Domain) 390

        12.7 Model Identification 395

        12.8 Model Updating 397

        12.9 Verification and Validation 398

        Chapter Notes 400

        References 401

        Problems 402

        A Comments on Units 405

        B Supplementary Mathematics 409

        Index 413

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