Abstract
The basic principle of applying Faraday's effect to achieve the separation of fringes in static and dynamic holographic photoelasticity, and a study and application of Faraday's light rotator are described in this paper. It is proposed that Faraday's light rotator be used for automating photoelastic instrumentation for measuring isoclinics and the decimal orders of isochromatic fringes.
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References
Fourney, M.E., “Applications of Holography to Photoelasticity,”Experimental Mechanics,8 (1),33–38 (1968).
Hovanesian, J.D., Vrcic, V. andPowell, R., “A New Experimental Stress-Optic Method: Stress Holo-interferometry,”Experimenial Mechanics,8 (8),362–368 (Aug. 1968).
O'Regan, R. andDudderar, T.D., “A New Holographic Interferometer for Stress Analysis,”Experimental Mechanics,11 (6,241–247 (1971).
Sciammarella, C.A. andQuintanilla, G.,Experimental Mechanics,12 (2),57–66 (1972).
Chau, Henry H.M., Rev. Sci. Instr.,39 (12),1789–1792 (1968).
Chatelain, B., Optics and Laser Technology,5 (5),201–204 (1973).
Aben, H., “Magnetophotoelasticity—Photoelasticity in a Magnetic Field,”Expeerimental Mechanics,10 (3),97–105 (1970).
Dudderar, T.D. and Doerries, E.M., ASME 74-DE-14 (1974).
Qin, Y.W.,Physics,8 (2), (1979) {cm(in Chinese).
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Qin, Y.W. Application of faraday's effect in static and dynamic holographic photoelasticity. Experimental Mechanics 21, 389–393 (1981). https://doi.org/10.1007/BF02324801
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DOI: https://doi.org/10.1007/BF02324801