A unified approach to optical constitutive relations

Bert, C.W., “Theory of Photoelasticity for Birefringent Filamentary Composites,” presented at the Fifth St. Louis Symposium on Advanced Composites (April 1971).
Knight, C.E. andPih, H., “Orthotropic Stress-Optic Law for Plane Stress Photoelasticity of Composite Materials,”Fibre Science and Tech.,9,297–313 (1976).
Google Scholar
Probhakaran, R., “Strain-Optic Law for Orthotropic Model Materials,”AIAA Journal,13,723–728 (1975).
Google Scholar
Prabhakaran, R., “On the Stress-Optic Law for Orthotropic Model Materials in Biaxial Fields,”Experimental Mechanics,15 (1),29 (1975).
Google Scholar
Coker, E.G. and Filon, L.N.G., “A Treatise on Photoelasticity,” Cambridge University Press (1931).

Doyle, J.F., “An Interpretation of Photoviscoelastic/Plastic Data,”Experimental Mechanics,20 (2),65–67 (Feb. 1980).
Google Scholar
Doyle, J.F., “Constitutive Relations in Photomechanics,”Int. J. Mech. Sci.,22,1–8 (1980).
Google Scholar

Author information

Department of Mechanical Engineering and Mechanics, Old Dominion University, 23508, Norfolk, VA
Ramanurthy Prabhakaran (Associate Professor)

Authors

Ramanurthy Prabhakaran
View author publications
You can also search for this author in PubMed Google Scholar

Prabhakaran, R. A unified approach to optical constitutive relations. Experimental Mechanics 20, 178–180 (1980). https://doi.org/10.1007/BF02327123

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.