3. Measures, R. M., N. D. W. Glossop, J. Lymer, M. LeBlanc, J. West, S. Dubois, W. Tsaw and R. C. Tennyson. 1989. "Structurally Integrated Fiber Optic Damage Assessment System for Composite Materials,"Applied Optics, 28(13):2626-2633.
4.
4. Glossop, N.1989. "An Embedded Fibre Optic Sensor for Impact Damage Detection in Composite Materials," UTIAS Report No. 332.
5.
5. Sirkis, J. S. and A. Dasgupta. "Analysis of Damage Sensor Based on Elastic-Plastic Metal Coatings on Optical Fiber Sensors,"Journal of Lightwave Technology, 11(8):1385-1393.
6.
6. Chang, C. and J. Sirkis. 1993. "Metal Coated Optical Fiber Damage Sensors,"Proc. Smart Sensing, Instrumentation, and Processing, SPIE, Vol. 9181, pp. 128-144.
7.
7. Lu, I. and J. S. Sirkis. "On Interphase Modeling for Optical Fiber Sensors Embedded in Unidirectional Composite Systems'" to appear in the Journal of Intelligent Material Systems and Structures.
8.
8. Mendelson, A.1986. Plasticity: Theory and Application, Robert E. Krieger Publishing Company, Inc., Florida.
9.
9. Udd, E.1991. Fiber Optic Sensors: An Introduction for Engineers and Scientists, Wiley-Interscience, NY.
10.
10. Sirkis, J. S.1993. "A Unified Aproach to Phase-Strain-Temperature Models for Smart Structure Interferometric Optical Fiber Sensors: Part I—Development,"Optical Engineering, 32:752-761.
11.
11. Sirkis, J.1993. "A Unified Approach to Phase-Strain-Temperature Models for Smart Structure Interferometric Optical Fiber Sensor: Part II—Applications,"Optical Engineering, 32:762-773.
12.
12. Kim, K. S., L. Kollar and G. S. Springer. 1993. "A Model of Embedded Fiber Optic Fabry-Perot Temperature and Strain Sensors,"Journal of Composite Materials, 27:1618-1662.
13.
13. Grande, R. 1994. "Non-Linear Analytical Modeling of Metallic-Coated Optical Fibers Embedded in Organic Matrix Composites," M.S. thesis, University of Maryland, College Park, MD.
14.
14. Hahn, H. T.1976. "Residual Stresses in Polymer Matrix Composite Laminates,"Journal of Composite Materials, 10:266-278.
15.
15. Strait, L. H., Jr. 1993. " Thermo-Mechanical Fatigue of Polymer Matrix Composites," Ph.D. thesis, Pennsylvania State University, July.
16.
16. Dasgupta, A. and J. S. Sirkis. 1992. "Importance of Coatings to Optical Fiber Sensors Embedded in `Smart' Structures,"AIAA Journal, 30(5):1337-1343.
17.
17. Carman, G. P. and K. Reifsnider. 1993. "Optimization of Coatings for Actuators and Sensors,"Journal of Intelligent Material Systems and Structures, 4(1):89-97.
18.
18. Carman, G. P., C. Paul and G. Sendecky. "Transverse Strength of Composites Containing Optical Fibers,"Proc. of Smart Structures and Intelligent Systems, SPIE, Vol. 1917, Part 1, pp. 307-316.
19.
19. Glaesemann, G. S. and S. T. Gulati. 1991. "Design Methodology for the Mechanical Reliability of Optical Fiber,"Optical Engineering, 30(6):709-715.
20.
20. Bogatyrjov, V. A.1991. "Mechanical Reliability of Polymer-Coated and Hermetically Coated Optical Fibers Based on Proof Testing,"Optical Engineering, 30(6):690-699.
21.
21. Waite, S. R. and G. N. Sage. 1988. "The Failure of Optical Fibers Embedded in Composite Materials,"Composites, 19(4):288-294.
23. Jensen, D. W., J. Pascual and J. A. August. 1992. "Performance of Graphite/Bismaleimide Laminates with Embedded Optical Fibers. Part I: Uniaxial Tension,"Smart Materials and Structures, 1(l):24-30.
24.
24. Roberts, S. S. J. and R. Davidson. 1991. "Mechanical Properties of Composite Materials Containing Embedded Fibre Optics Sensors," SPIE Vol. 1588, Fiber Optic Smart Structures and Skins IV pp. 326-341.
25.
25. Case, S. W., G. P. Carman and K. L. Reifsnider. 1992. "Optimization of Transverse Performance through Application of Appropriate Interphase Coating,"Advanced Composites Letters, 1(4):1-4.
