Photomechanics describes the use of photonics techniques for the nondestructive measurement of variations in certain important physical quantities such...
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Photomechanics describes the use of photonics techniques for the nondestructive measurement of variations in certain important physical quantities such as displacements, strains, densities, etc. in experimental solid mechanics and flow. Offering authoritative reviews by internationally recognized experts, the book provides a wealth of information on the essential principles and methods today available in this realm. These include holographic and Moiré interferometry, speckle metrology, two- and three-dimensional computer-vision methods as well as laser-Doppler and pulsed-laser a concise and simple way the book provides a substantial background for researchers and practicing engineers.
Sommaire
Optics for Engineers
Introduction to Engineering Mechanics
Fringe Analysis
Principles of Holographic Interferometry and Speckle Metrology
Moiré Methods for Engineering and Science - Moiré Interferometry and Shadow Moiré
Digital Photoelasticity
Optical Fiber Strain Sensing in Engineering Mechanics
Long-Gage Fiber-Optic Sensors for Structural Monitoring
Techniques for Non-Birefringent Objects: Coherent Shearing Interferometry and Caustics
Advances in Two-Dimensional and Three-Dimensional Computer Vision
Laser Doppler and Pulsed Laser Velocimetry in Fluid Mechanics
Surface Characterization and Roughness Measurement in Engineering.