Produktbild: Vehicle Scanning Method for Bridges

Vehicle Scanning Method for Bridges

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Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

25.11.2019

Verlag

Wiley

Seitenzahl

500

Maße (L/B/H)

24,6/17,3/2 cm

Gewicht

590 g

Sprache

Englisch

ISBN

978-1-119-53958-2

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

25.11.2019

Verlag

Wiley

Seitenzahl

500

Maße (L/B/H)

24,6/17,3/2 cm

Gewicht

590 g

Sprache

Englisch

ISBN

978-1-119-53958-2

Herstelleradresse

Produktsicherheitsverantwortliche/r
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: Vehicle Scanning Method for Bridges
  • Preface ix

    Acknowledgments xiii

    1 Introduction 1

    1.1 Modal Properties of Bridges 1

    1.2 Basic Concept of the Vehicle Scanning Method 3

    1.2.1 Bridge Frequency Extraction 3

    1.2.2 Bridge Mode Shapes Construction 4

    1.3 Brief on the Works Conducted by Yang and CöWorkers 5

    1.4 Works Done by Researchers Worldwide 7

    1.4.1 Theoretical Analysis and Simulation 8

    1.4.2 Laboratory Test 16

    1.4.3 Field Investigation 20

    1.5 Concluding Remarks 22

    2 Vehicle Scanning of Bridge Frequencies: Simple Theory 25

    2.1 Introduction 25

    2.2 Formulation of the Analytical Theory 27

    2.3 Single¿ Mode Analytical Solution 28

    2.4 Condition of Resonance 34

    2.5 Simulation by the Finite Element Method (FEM) 39

    2.6 Verification of Accuracy of Analytical Solutions 41

    2.7 Extraction of Fundamental Frequency of Bridge 42

    2.7.1 Effect of Moving Speed of the Vehicle 46

    2.7.2 Condition of Resonance 46

    2.7.3 Effect of Damping of the Bridge 48

    2.7.4 Effect of a Vehicle Traveling over a Stiffer Bridge 49

    2.8 Concluding Remarks 50

    3 Vehicle Scanning of Bridge Frequencies: General Theory 51

    3.1 Introduction 51

    3.2 Physical Modeling and Formulation 53

    3.3 Dynamic Response of the Beam 55

    3.3.1 Beam's Response to a Single Moving Vehicle 58

    3.3.2 Beam's Response to Five Moving Vehicles 61

    3.4 Dynamic Response of the Moving Vehicle 62

    3.5 Numerical Verification 66

    3.6 Concluding Remarks 69

    4 Vehicle Scanning of Bridge Frequencies: Experiment 71

    4.1 Introduction 71

    4.2 Objective of This Chapter 72

    4.3 Description of the Test Bridge 73

    4.4 Description of the Test Vehicle 73

    4.5 Instrumentation 75

    4.6 Testing Plan 75

    4.7 Eigenvalue Analysis Results 77

    4.8 Experimental Results 77

    4.8.1 Ambient Vibration Test 77

    4.8.2 Vehicle Characteristics Test 78

    4.8.3 Bridge Response to the Moving Truck 79

    4.8.4 Response of the Test Cart Resting on the Bridge to the Moving Truck 81

    4.8.5 Response of the Moving Test Cart with No Ongoing Traffic 83

    4.8.6 Response of the Moving Test Cart with Ongoing Traffic 85

    4.9 Comparing the Measured Results with Numerical Results 86

    4.10 Concluding Remarks 87

    5 EMD¿Enhanced Vehicle Scanning of Bridge Frequencies 91

    5.1 Introduction 91

    5.2 Analytical Formulation of the Problem 93

    5.3 Finite Element Simulation of the Problem 96

    5.4 Empirical Mode Decomposition 97

    5.5 Extraction of Bridge Frequencies by Numerical Simulation 99

    5.5.1 Example 1: Single Moving Vehicle 101

    5.5.2 Example 2: Five Sequential Moving Vehicles 102

    5.5.3 Example 3: Five Random Moving Vehicles 105

    5.6 Experimental Studies 105

    5.7 Concluding Remarks 114

    6 Effect of Road Roughness on Extraction of Bridge Frequencies 115

    6.1 Introduction 115

    6.2 Simulation of Roughness Profiles 116

    6.3 Simulation of Bridges with Rough Surface 117

    6.4 Effect of Road Roughness on Vehicle Response 118

    6.4.1 Case 1: Vehicle Frequency Less than Any Bridge Frequencies 119

    6.4.2 Case 2: Vehicle Frequency Greater than the First Bridge Frequency 119

    6.5 Vehicle Responses Induced by Separate Excitational Sources 122

    6.6 Closed¿Form Solution of Vehicle Response Considering Road Roughness 122

    6.7 Reducing the Impact of Road Roughness by Using Two Connected Vehicles 127

    6.8 Numerical Studies 131

    6.8.1 Example 1. Two Identical Vehicles Moving over the Bridge of Class A Roughness 131

    6.8.2 Example 2. Two Identical Vehicles Moving over the Bridge of Class C Roughness 131

    6.8.3 Example 3. Two Vehicles of Identical Frequency but Different Properties 132

    6.8.4 Effect of Vehicle Spacing on Identification of Bridge Frequencies 133

    6.9 Concluding Remarks 135

    7 Filtering Technique for Eliminating the Effect of Road Roughness 137

    7.1 Introduction 137

    7.2 Numerical Simulations for Vehicle Responses 138

    7.3 Filtering Techniques 141

    7.3.1 Band¿Pass Filter (BPF)/Band¿Stop Filter (BSF) 141

    7.3.2 Singular Spectrum Analysis (SSA) 142

    7.3.3 Singular Spectrum Analysis with Band¿Pass Filter (SSA¿BPF) 144

    7.4 Case Studies 145

    7.4.1 Case 1: Vehicle Frequency Smaller than First Bridge Frequency 145

    7.4.2 Case 2: Vehicle Frequency Greater than First Bridge Frequency 148

    7.5 Concluding Remarks 151

    8 Hand¿Drawn Cart Used to Measure Bridge Frequencies 153

    8.1 Introduction 153

    8.2 Dynamic Properties of the Hand¿Drawn Test Cart 156

    8.3 Basic Dynamic Tests for the Test Cart 157

    8.4 Field Tests 162

    8.4.1 Effect of Cart Weight 163

    8.4.2 Effect of Various Traveling Speeds 165

    8.4.3 Various Volumes of Existing Traffic Flows 170

    8.5 Concluding Remarks 173

    9 Theory for Retrieving Bridge Mode Shapes 175

    9.1 Introduction 175

    9.2 Hilbert Transformation 176

    9.3 Theoretical Formulation 177

    9.4 Algorithms and Constraints 181

    9.5 Case Studies 185

    9.5.1 Test Vehicle Passing through a Bridge with Smooth Road Surface 186

    9.5.2 Effect of Vehicle Speed 187

    9.5.3 Test Vehicle Traveling along with Random Traffic 190

    9.5.4 Effect of Road Surface Roughness 190

    9.6 Concluding Remarks 193

    10 Contact¿Point Response for Modal Identification of Bridges 195

    10.1 Introduction 195

    10.2 Theoretical Formulation 197

    10.2.1 Dynamic Response of the Vehicle¿Bridge Contact Point 198

    10.2.2 Dynamic Response of the Moving Vehicle 199

    10.2.3 Procedure for Calculating the Contact¿Point Response in a Field Test 201

    10.2.4 Relationship Between the Contact¿Point and Vehicle Responses 201

    10.3 Finite Element Simulation of VBI Problems 204

    10.3.1 Brief on VBI Element 204

    10.3.2 Verification of the Theoretical Solution 205

    10.4 Retrieval of Bridge Frequencies 206

    10.5 Retrieval of Bridge Mode Shapes 208

    10.5.1 Effect of Moving Speed 209

    10.5.2 Effect of Vehicle Frequency 210

    10.6 Effect of Road Roughness 212

    10.6.1 Bridge with Rough Surface Free of Existing Traffic 212

    10.6.2 Bridge with Rough Surface under Existing Traffic 214

    10.7 Concluding Remarks 215

    11 Damage Detection of Bridges Using the Contact¿Point Response 217

    11.1 Introduction 217

    11.2 Dynamic Response of the Vehicle¿Bridge System 219

    11.2.1 Contact¿Point Response: Analytical Solution 220

    11.2.2 Contact¿Point Response: For Use in Field Test 220

    11.3 Algorithm for Damage Detection 221

    11.3.1 Hilbert Transformation 221

    11.3.2 Strategy for Damage Detection 221

    11.4 Finite Element Simulation of the Problem 223

    11.4.1 Damage Element for Beams 223

    11.4.2 Brief on Vehicle¿Bridge Interaction (VBI) Element Used 224

    11.5 Detection of Damages on a Beam 225

    11.5.1 Detection of Damage Location on the Beam 225

    11.5.2 Detection of Damage Severity 226

    11.5.3 Detection of Multiple Damages 228

    11.6 Parametric Study 228

    11.6.1 Effect of Test Vehicle Speed 229

    11.6.2 Effect of Measurement Noise 229

    11.6.3 Bridge with Rough Surface Free of Random Traffic 230

    11.6.4 Bridge with Rough Surface under Random Traffic 232

    11.7 Concluding Remarks 234

    Appendix: Finite Element Simulation 237

    References 247

    Author Index 259

    Subject Index 265