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Full-field measurements and identification in solid mechanics [[electronic resource] /] / edited by Michel Grédiac, François Hild
Full-field measurements and identification in solid mechanics [[electronic resource] /] / edited by Michel Grédiac, François Hild
Autore Grédiac Michel
Pubbl/distr/stampa Hoboken, N.J., : ISTE Ltd./John Wiley and Sons Inc., 2013
Descrizione fisica 1 online resource (498 p.)
Disciplina 620.105
Altri autori (Persone) GrédiacMichel
HildF (François)
Collana Mechanical engineering and solid mechanics series
Soggetto topico Engineering mathematics
Measurement
ISBN 1-118-57846-5
1-299-18660-2
1-118-57667-5
1-118-57847-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Title Page; Contents; Foreword; Introduction; Chapter 1. Basics of Metrology and Introduction to Techniques; 1.1. Introduction; 1.2. Terminology: international vocabulary of metrology; 1.2.1. Absolute or differential measurement; 1.2.2. Main concepts; 1.3. Spatial aspect; 1.3.1. Spatial frequency; 1.3.2. Spatial filtering; 1.4. Classification of optical measurement techniques; 1.4.1. White light measurement methods; 1.4.2. Interference methods; 1.4.3. Sensitivity vector; 1.4.4. Synthetic sensitivity vectors; 1.4.5. The different types of interferometric measurements
1.4.6. Holography, digital holography1.4.7. Conclusion; 1.5. Bibliography; Chapter 2. Photoelasticity; 2.1. Introduction; 2.2. Concept of light polarization; 2.3. Birefringence phenomenon; 2.4. The law of optico-mechanics; 2.5. Several types of polariscopes; 2.5.1. Plane polariscope; 2.5.2. Circular polariscope; 2.5.3. White light polariscope; 2.5.4. Photoelastic coating; 2.6. Measurement of photoelastic constant C; 2.7. Analysis by image processing; 2.7.1. Using a plane polariscope; 2.7.2. Using a circular polariscope; 2.7.3. Using color images
2.8. Post-processing of photoelastic parameters2.8.1. Drawing of isostatics or stress trajectories; 2.8.2. Particular points; 2.8.3. Stress separation and integration of the equilibrium equations; 2.8.4. Comparison between experimentation and numerical modeling; 2.9. Three-dimensional photoelasticity; 2.9.1. The method of stress freezing and mechanical slicing; 2.9.2. Optical slicing; 2.9.3. Application example; 2.10. Conclusion; 2.11. Bibliography; Chapter 3. Grid Method, Moiré and Deflectometry; 3.1. Introduction; 3.2. Principle; 3.3. Surface encoding; 3.4. Moiré; 3.5. Phase detection
3.5.1. Global extraction procedure3.5.2. Local phase detection: phase shifting; 3.5.3. Measuring both components of the displacement; 3.6. Sensitivity to out-of-plane displacements; 3.7. Grid defects; 3.8. Large deformation/large strain; 3.8.1. Explicit method; 3.8.2. Implicit method; 3.8.3. Large strain; 3.9. Fringe projection; 3.10. Deflectometry; 3.11. Examples; 3.11.1. Off-axis tensile test of a unidirectional composite coupon; 3.11.2. Rigid body displacement; 3.11.3. SEM measurement; 3.11.4. Characterization of lens distortion; 3.12. Conclusion; 3.13. Bibliography
Chapter 4. Digital Holography Methods4.1. Introduction; 4.2. Basics of wave optics; 4.2.1. Light diffraction; 4.2.2. Interference; 4.3. Basics of digital holography; 4.3.1. Recording the hologram; 4.3.2. Numerical reconstruction with the discrete Fresnel transform; 4.3.3. Numerical reconstruction using convolution with adjustable magnification; 4.3.4. Sensitivity vector; 4.4. Basics of digital holographic interferometry; 4.4.1. Phase difference; 4.4.2. Spatial filtering of the phase and phase unwrapping; 4.5. Digital holographic interferometry with spatial multiplexing; 4.5.1. Principle
4.5.2. Theory
Record Nr. UNINA-9910141495303321
Grédiac Michel  
Hoboken, N.J., : ISTE Ltd./John Wiley and Sons Inc., 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Full-field measurements and identification in solid mechanics [[electronic resource] /] / edited by Michel Grédiac, François Hild
Full-field measurements and identification in solid mechanics [[electronic resource] /] / edited by Michel Grédiac, François Hild
Autore Grédiac Michel
Pubbl/distr/stampa Hoboken, N.J., : ISTE Ltd./John Wiley and Sons Inc., 2013
Descrizione fisica 1 online resource (498 p.)
Disciplina 620.105
Altri autori (Persone) GrédiacMichel
HildF (François)
Collana Mechanical engineering and solid mechanics series
Soggetto topico Engineering mathematics
Measurement
ISBN 1-118-57846-5
1-299-18660-2
1-118-57667-5
1-118-57847-3
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Title Page; Contents; Foreword; Introduction; Chapter 1. Basics of Metrology and Introduction to Techniques; 1.1. Introduction; 1.2. Terminology: international vocabulary of metrology; 1.2.1. Absolute or differential measurement; 1.2.2. Main concepts; 1.3. Spatial aspect; 1.3.1. Spatial frequency; 1.3.2. Spatial filtering; 1.4. Classification of optical measurement techniques; 1.4.1. White light measurement methods; 1.4.2. Interference methods; 1.4.3. Sensitivity vector; 1.4.4. Synthetic sensitivity vectors; 1.4.5. The different types of interferometric measurements
1.4.6. Holography, digital holography1.4.7. Conclusion; 1.5. Bibliography; Chapter 2. Photoelasticity; 2.1. Introduction; 2.2. Concept of light polarization; 2.3. Birefringence phenomenon; 2.4. The law of optico-mechanics; 2.5. Several types of polariscopes; 2.5.1. Plane polariscope; 2.5.2. Circular polariscope; 2.5.3. White light polariscope; 2.5.4. Photoelastic coating; 2.6. Measurement of photoelastic constant C; 2.7. Analysis by image processing; 2.7.1. Using a plane polariscope; 2.7.2. Using a circular polariscope; 2.7.3. Using color images
2.8. Post-processing of photoelastic parameters2.8.1. Drawing of isostatics or stress trajectories; 2.8.2. Particular points; 2.8.3. Stress separation and integration of the equilibrium equations; 2.8.4. Comparison between experimentation and numerical modeling; 2.9. Three-dimensional photoelasticity; 2.9.1. The method of stress freezing and mechanical slicing; 2.9.2. Optical slicing; 2.9.3. Application example; 2.10. Conclusion; 2.11. Bibliography; Chapter 3. Grid Method, Moiré and Deflectometry; 3.1. Introduction; 3.2. Principle; 3.3. Surface encoding; 3.4. Moiré; 3.5. Phase detection
3.5.1. Global extraction procedure3.5.2. Local phase detection: phase shifting; 3.5.3. Measuring both components of the displacement; 3.6. Sensitivity to out-of-plane displacements; 3.7. Grid defects; 3.8. Large deformation/large strain; 3.8.1. Explicit method; 3.8.2. Implicit method; 3.8.3. Large strain; 3.9. Fringe projection; 3.10. Deflectometry; 3.11. Examples; 3.11.1. Off-axis tensile test of a unidirectional composite coupon; 3.11.2. Rigid body displacement; 3.11.3. SEM measurement; 3.11.4. Characterization of lens distortion; 3.12. Conclusion; 3.13. Bibliography
Chapter 4. Digital Holography Methods4.1. Introduction; 4.2. Basics of wave optics; 4.2.1. Light diffraction; 4.2.2. Interference; 4.3. Basics of digital holography; 4.3.1. Recording the hologram; 4.3.2. Numerical reconstruction with the discrete Fresnel transform; 4.3.3. Numerical reconstruction using convolution with adjustable magnification; 4.3.4. Sensitivity vector; 4.4. Basics of digital holographic interferometry; 4.4.1. Phase difference; 4.4.2. Spatial filtering of the phase and phase unwrapping; 4.5. Digital holographic interferometry with spatial multiplexing; 4.5.1. Principle
4.5.2. Theory
Record Nr. UNINA-9910830680203321
Grédiac Michel  
Hoboken, N.J., : ISTE Ltd./John Wiley and Sons Inc., 2013
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui