Laermann K.-H. (Ed.) Optical Methods in Experimental Solid

Springer- Verlag Wien, 2000. – 432 p. – ISBN: 3211833250The book covers the theories and physics of advanced new optical measuring methods and problems of experimental performance, recent achievements in the basic interferometric methods holography, speckle-interferometry, shearography as well as linear/non-linear photoelasticity and photoviscoelasticity, Moiré- and grid-techniques.Hybrid Techniques In Experimental Solid MechanicsPrinciple of Hybrid Techniques
Non-Linear Photoelasticity
Photo Viscoelasticity
Evaluation of Photoelasticiviscoelastic Measurements by Means of Boundary-Element Method
Analysis of 3-D-Stress-Strain States by Means of Discrete Boundary-Integral
Analysis of 3-D-Stress-Strain States by Combining Espi With Fem
Remarks Generally to Consider in Performing Experimental Mechanics
Recent Developments in 3-D-Photoelasticity and Grating Strain Measurement
Three Dimensional Photoelasticity
Grating Strain Measurement
Automated in-Plane Moire Techniques and Grating Interferometry
The Basic Rules in Full-Field Grid Techniques
Grid (Grating) Technology
Principles of Automatic Analysis of Results
The Moire Fringe Method
Grating (Moire) Interferometry
Material Engineering and Micro-Mechanics
Hybrid Methods of Residual Stress Analysis
Conclusions and Future Potentials
Interferometric MethodsHolographic Interferometry
Digital Holography
Speckle Photography
Electronic (Digital) Speckle Interferometry
Digital Speckle Shearing Interferometry
Digital Processing and Evaluation of Fringe Patterns in Optical MetrologyIntensity Models; Disturbances and Simulations
Techniques for Digital Phase Reconstruction
Meastjrement of 3d-Displacement Fields
Techniques for the Qualitative Evaluation of Fringe Pattern
Modern Software Systems for Digital Process Fringe Pattern