Abstract
A sufficiently general physical model of phenomena of importance to the theory of optical isodynes should contain one more component in addition to those listed in Section 4.3. This component would replace assumptions (4) and (5), and describe adequately the actually non-rectilinear flow of radiant energy through a stressed dielectric, using, for instance, the concept of the ray surface. However, the resulting relationships would be very cumbersome and would unnecessarily obscure the theory of the actual experiment in which, in contrast to some thought experiments, all physical quantities have finite, limited values.
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References
Frocht, M. M., Photoelasticity, Vol. 1 and 2, John Wiley & Sons, New York, 1941 and 1948.
Mazurkiewicz, S. B. and Pindera, J. T., “Integrated Plane Photoelastic Method — Application of Photoelastic Isodynes”, Experimental Mechanics 19 (7), 1979, pp. 225–234.
Mesmer, G., Spannungsoptik, Springer-Verlag, 1939.
Pindera, J. T., Outline of Photoelasticity (in Polish), Panstwowe Wydawnictwa Techniczne, Warszawa, 1953.
Pindera, Jerzy T., Rheological Properties of Some Polyester Resins, parts I, II, III (in Polish), Engineering Transactions (Rozprawy Inzynierskie) Polish Acad. Sciences, Vol. VII (3.4), 1959, pp. 361–411, 481–520, 521–540.
Pindera, J. T., “Einige Rheologische Probleme bei spannungsoptischen Unterschungen”, in: G. Haberland (Ed.), Internationales spannungsoptisches Symposium, Berlin, April 10–15, 1961, Akademie-Verlag, Berlin, 1962, pp. 155–172.
Pindera, J. T., Rheological Properties of Model Materials (in Polish), Wydawnictwa Naukowo-Techniczne, Warszawa, 1962.
Pindera, J. T. and Cloud, G., “On Dispersion of Birefringence of Photoelastic Materials”, Experimental Mechanics 6 (9), 1966, pp. 470–480.
Pindera, J. T. and Straka, P., “Responses of the Integrated Polariscope”, Journal of Strain Analysis 8 (1), 1973, pp. 65–76.
Pindera, J. T. and Straka, P., “On Physical Measures of Rheological Responses of Some Materials in Wide Ranges of Temperature and Spectral Frequency”, Rheologica Acta 13 (3), 1974, pp. 338–351.
Pindera, J. T., “Response of Photoelastic Systems”, Transactions of The CSME 2(1), 1973–74, pp. 21–30.
Pindera, J. T., “On Physical Basis of Modern Photoelasticity Techniques”, Beiträge zur Spannungs-und Dehnungsanalyse, Vol. V, Akademie-Verlag, Berlin, 1968, pp. 103–130.
Pindera, J. T. and Mazurkiewicz, S. B., “Photoelastic Isodynes: A New Type of Stress Modulated Light Intensity Distribution”, Mechanics Research Communications 4, 1977, pp. 247–252.
Pindera, Jerzy T., “Foundations of Experimental Mechanics: Principles of Modelling, Observation and Experimentation”, in: Pindera, J. T. (Ed.), New Physical Trends in Experimental Mechanics, Springer-Verlag, Wien, 1981, pp. 188–326.
Pindera, J. T. and Mazurkiewicz, S. B., “Studies of Contact Problems Using Photoelastic Isodynes”, Experimental Mechanics 21 (12), 1981, pp. 448–455.
Pindera, J. T., “Analytical Foundations of the Isodyne Photoelasticity”, Mechanics Research Communications 8, 1981, pp. 391–397.
Pindera, J. T., “New Development in Photoelastic Studies: Isodyne and Gradient Photoelasticity”, in: Chiang, F. P. (Ed.), Incoherent Optical Techniques in Experimental Mechanics, Optical Engineering 21(4), 1982, pp. 672–678.
Pindera, J. T. and Krasnowski, B. R., Theory of Elastic and Photoelastic Isodynes, SMD-Paper No. 184, IEM-Paper No. 1. Solid Mechanics Division, University of Waterloo, October 1983, pp. 1–127.
Pindera, J. T., “Isodyne Photoelasticity and Gradient Photoelasticity: Physical and Mathematical Models, Efficacy, Applications”, Mechanika Teoretyczna i Stosowana (Journal of Theoretical and Applied Mechanics) 22 (1/2), 1984, pp. 53–68.
Pindera, J. T., Krasnowski, B. R., and Pindera, M. J., “Theory of Elastic and Photoelastic Isodynes. Samples of Applications in Composite Structures”, Experimental Mechanics 25 (3), 1985, pp. 272–281.
Pindera, J. T. and Hecker, F. W., “Basic Theories and Experimental Methods of the Strain-Gradient Method”, Experimental Mechanics 27 (3), 1987, pp. 314–327.
Pirard, A., La Photoélasticité, Dunod, Paris, 1947.
Weller, R., “Three-Dimensional Photoelasticity Using Scattered Light”, J. Appl. Phys. 12, 1941, 610–616.
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© 1989 J. T. Pindera and Sons Engineering Services, Ontario, Canada
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Pindera, J.T., Pindera, MJ. (1989). Theory of optical isodynes. In: Isodyne Stress Analysis. Engineering Application of Fracture Mechanics, vol 8. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-0973-1_5
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DOI: https://doi.org/10.1007/978-94-009-0973-1_5
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