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The Resource Nonlinear ultrasonic and vibro-acoustical techniques for nondestructive evaluation, Tribikram Kundu, editor

Nonlinear ultrasonic and vibro-acoustical techniques for nondestructive evaluation, Tribikram Kundu, editor

Label
Nonlinear ultrasonic and vibro-acoustical techniques for nondestructive evaluation
Title
Nonlinear ultrasonic and vibro-acoustical techniques for nondestructive evaluation
Statement of responsibility
Tribikram Kundu, editor
Contributor
Editor
Subject
Language
eng
Member of
Cataloging source
N$T
Dewey number
620.1/1274
Index
index present
LC call number
TA417.4
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
Kundu, T.
http://library.link/vocab/subjectName
  • Ultrasonic testing
  • Materials
  • Biomolecules
Label
Nonlinear ultrasonic and vibro-acoustical techniques for nondestructive evaluation, Tribikram Kundu, editor
Instantiates
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Intro; Contents; Contributors; 1 Fundamentals of Nonlinear Acoustical Techniques and Sideband Peak Count; 1.1 Introduction; 1.2 Mechanics of Higher Harmonic Generation for Bulk Waves; 1.2.1 Nonlinear Wave Equations; 1.2.2 Acoustic Nonlinear Parameters for Longitudinal Waves; 1.2.3 Acoustic Nonlinear Parameter for Transverse Waves; 1.2.4 Use of Nonlinear Bulk Waves for Nondestructive Evaluation; 1.2.4.1 Nonlinear Acoustic Parameter Measurement; 1.2.4.2 Specimens and Experimental Setup; 1.3 Higher Harmonic Generation for Guided Waves
  • 1.3.1 Acoustic Nonlinear Parameter for Surface Wave Propagation1.3.2 NDE Application Potential of Nonlinear Surface Waves; 1.3.3 Nonlinear Lamb Waves; 1.3.3.1 Phase Matched Lamb Wave Modes; 1.3.4 NDE Applications of Nonlinear Lamb Waves; 1.3.4.1 Example 1: Detection of Thermal Fatigue in Composites by Second Harmonic Lamb Waves; 1.3.4.2 Example 2: Assessment of Thermal Fatigue in Pipes by Nonlinear Guided Waves; 1.4 Higher Harmonic Generation by Different Types of Material Nonlinearity; 1.5 Acoustoelastic Technique; 1.6 Nonlinear Resonance Techniques
  • 1.7 Pump Wave and Probe Wave-Based Techniques1.7.1 Nonlinear Wave Modulation Spectroscopy (NWMS); 1.7.1.1 Mathematical Proof of the Side Band Generation; 1.7.1.2 Experimental Configuration; 1.7.2 Dynamic Acoustoelastic Test (DAET); 1.7.3 Pump Wave After-Effect Monitoring Through Coda Wave Interferometry; 1.8 Subharmonic Phased Array for Crack Evaluation (SPACE); 1.9 Collinear and Non-Collinear Wave Mixing Techniques; 1.9.1 Collinear Wave Mixing Technique; 1.9.2 Non-Collinear Wave Mixing Technique; 1.10 Recent Advances of Wave Modulation Techniques
  • 1.10.1 Finding Optimal Combinations of Probing and Pumping Frequencies1.10.2 Sideband Peak Count (SPC) Technique; 1.10.2.1 Crack Detection in Aluminum Plate Specimens; 1.10.2.2 Crack Detection in Aircraft Fitting-Lugs; 1.10.2.3 Crack Localization in Aluminum Plate Specimens; 1.11 Concluding Remarks; References; 2 Nonlinear Resonant Ultrasound Spectroscopy: Assessing Global Damage; 2.1 Introduction and Motivation; 2.2 Nonlinearity in General: Background; 2.3 Nonlinear Resonance Techniques: History; 2.3.1 Complication: Rate Dependence; 2.3.2 Complication: Hysteresis
  • 2.4 Demonstration: Nonlinearity Correlates with Damage2.5 Conclusions; References; 3 Modeling and Numerical Simulations in Nonlinear Acoustics Used for Damage Detection; 3.1 Introduction; 3.2 Nonlinear Elastic Wave Propagation Problem Formulation; 3.3 Numerical Models for Wave Propagation in Nonlinear Media; 3.3.1 Nonlinear Media Models; 3.3.1.1 The Finite Element Method for Wave Propagation in Nonlinear Media; 3.3.1.2 The Local Interaction Simulation Approach for Wave Propagation in Nonlinear Media; 3.3.2 Nonlinear Damage Models
Dimensions
unknown
Extent
1 online resource
File format
unknown
Form of item
online
Isbn
9783319944760
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
http://library.link/vocab/ext/overdrive/overdriveId
com.springer.onix.9783319944760
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
  • on1057550234
  • (OCoLC)1057550234
Label
Nonlinear ultrasonic and vibro-acoustical techniques for nondestructive evaluation, Tribikram Kundu, editor
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Intro; Contents; Contributors; 1 Fundamentals of Nonlinear Acoustical Techniques and Sideband Peak Count; 1.1 Introduction; 1.2 Mechanics of Higher Harmonic Generation for Bulk Waves; 1.2.1 Nonlinear Wave Equations; 1.2.2 Acoustic Nonlinear Parameters for Longitudinal Waves; 1.2.3 Acoustic Nonlinear Parameter for Transverse Waves; 1.2.4 Use of Nonlinear Bulk Waves for Nondestructive Evaluation; 1.2.4.1 Nonlinear Acoustic Parameter Measurement; 1.2.4.2 Specimens and Experimental Setup; 1.3 Higher Harmonic Generation for Guided Waves
  • 1.3.1 Acoustic Nonlinear Parameter for Surface Wave Propagation1.3.2 NDE Application Potential of Nonlinear Surface Waves; 1.3.3 Nonlinear Lamb Waves; 1.3.3.1 Phase Matched Lamb Wave Modes; 1.3.4 NDE Applications of Nonlinear Lamb Waves; 1.3.4.1 Example 1: Detection of Thermal Fatigue in Composites by Second Harmonic Lamb Waves; 1.3.4.2 Example 2: Assessment of Thermal Fatigue in Pipes by Nonlinear Guided Waves; 1.4 Higher Harmonic Generation by Different Types of Material Nonlinearity; 1.5 Acoustoelastic Technique; 1.6 Nonlinear Resonance Techniques
  • 1.7 Pump Wave and Probe Wave-Based Techniques1.7.1 Nonlinear Wave Modulation Spectroscopy (NWMS); 1.7.1.1 Mathematical Proof of the Side Band Generation; 1.7.1.2 Experimental Configuration; 1.7.2 Dynamic Acoustoelastic Test (DAET); 1.7.3 Pump Wave After-Effect Monitoring Through Coda Wave Interferometry; 1.8 Subharmonic Phased Array for Crack Evaluation (SPACE); 1.9 Collinear and Non-Collinear Wave Mixing Techniques; 1.9.1 Collinear Wave Mixing Technique; 1.9.2 Non-Collinear Wave Mixing Technique; 1.10 Recent Advances of Wave Modulation Techniques
  • 1.10.1 Finding Optimal Combinations of Probing and Pumping Frequencies1.10.2 Sideband Peak Count (SPC) Technique; 1.10.2.1 Crack Detection in Aluminum Plate Specimens; 1.10.2.2 Crack Detection in Aircraft Fitting-Lugs; 1.10.2.3 Crack Localization in Aluminum Plate Specimens; 1.11 Concluding Remarks; References; 2 Nonlinear Resonant Ultrasound Spectroscopy: Assessing Global Damage; 2.1 Introduction and Motivation; 2.2 Nonlinearity in General: Background; 2.3 Nonlinear Resonance Techniques: History; 2.3.1 Complication: Rate Dependence; 2.3.2 Complication: Hysteresis
  • 2.4 Demonstration: Nonlinearity Correlates with Damage2.5 Conclusions; References; 3 Modeling and Numerical Simulations in Nonlinear Acoustics Used for Damage Detection; 3.1 Introduction; 3.2 Nonlinear Elastic Wave Propagation Problem Formulation; 3.3 Numerical Models for Wave Propagation in Nonlinear Media; 3.3.1 Nonlinear Media Models; 3.3.1.1 The Finite Element Method for Wave Propagation in Nonlinear Media; 3.3.1.2 The Local Interaction Simulation Approach for Wave Propagation in Nonlinear Media; 3.3.2 Nonlinear Damage Models
Dimensions
unknown
Extent
1 online resource
File format
unknown
Form of item
online
Isbn
9783319944760
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
http://library.link/vocab/ext/overdrive/overdriveId
com.springer.onix.9783319944760
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
  • on1057550234
  • (OCoLC)1057550234

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