Mechanics of Bond and Interface Shear Transfer in Optical Fiber Sensors
Publication: Journal of Engineering Mechanics
Volume 124, Issue 4
Abstract
Optical fiber sensors are emerging as a superior nondestructive means for condition evaluation of civil structures. The ability of an optical fiber sensor to monitor strain distribution in a structural material depends on the bonding characteristics between the material and the optical fiber. The strain field transferred from the structure to the optical fiber sensor generates changes in the characteristics of the light signal transmitted by the glass core of the optical fiber. Transduction of this signal will provide a means for measurement of strain. However, the mechanical properties of the protective coatings employed in conjunction with optical fibers alter the strain transduction capabilities of the sensor. A portion of the strain is absorbed by the protective coating of the optical fiber, and hence, only a segment of structural strain is sensed. In the study reported here, a model is introduced and tested through which it is possible to interpret the actual level of structural strains from the values measured by an optical fiber sensor. A number of realistic assumptions were introduced to simplify the development of the mathematical rigor. It was determined that the strain transfer characteristics of optical fibers depend on the mechanical properties of the glass core, the protective coating, and the gauge length of the optical fiber. Mathematical expressions are developed through which it is possible to describe the level of strain loss within the protective coating, and the amount transferred to the optical fiber core. The theoretical findings were verified through a series of experiments involving white light interferometry. The investigation encompassed repeated experiments with a range of fiber sensor gauge lengths. The experimental program included evaluation of strain transfer capabilities of coated as well as bare fibers.
Get full access to this article
View all available purchase options and get full access to this article.
References
1.
Ansari, F. (ed.). (1993). Application of fiber optic sensors in engineering mechanics. ASCE, New York, N.Y.
2.
Ansari, F.(1997). “State-of-the-art in the applications of fiber optic sensors to cementitious composites.”Cement and Concrete Compos., 19(1), 3–19.
3.
Ansari, F., and Chen, Q.(1991). “Fiber optic refractive index sensor for use in fresh concrete.”Appl. Optics., 30, 4056–4059.
4.
Ansari, F., and Navalurkar, R. K.(1993). “Kinematics of crack formation in cementitious composites by fiber optics.”J. Engrg. Mech., ASCE, 119(5), 1048–1058.
5.
Ansari, F., and Wang, J. (1995). “Rate sensitivity of high birefringent fiber optic sensors under large dynamic loads. IEEE J. Lightwave Engrg., 13(10), 1992–1997.
6.
Butter, C. D., and Hocker, G. B.(1978). “Fiber optic strain gauge.”Appl. Optics, 17(8), 2867–2868.
7.
Claus, R. O., Gunther, M. F., Wang, A. B., Murphy, K. A., and Sun, D. (1993). “Extrinsic Fabry-Perot sensor for structural evaluation.”Applications of fiber optic sensors in engineering mechanics, F. Ansari, ed., ASCE, New York, N.Y., 60–70.
8.
Jackson, D. A.(1985). “Monomode optical fiber interferometers for precision measurement.”J. Phys. E., 18, 981–1001.
9.
Kim, K. S., Kollar, L., and Springer, G. S.(1993). “A model of embedded fiber optic Fabry-Perot temperature and strain sensors.”J. Composite Mat., 27(17), 1618–1662.
10.
Morey, W. W., Meltz, G., and Glenn, D. H.(1989). “Fiber optic bragg grating sensors.”Proc., SPIE, Society of Photo-Optical Instrumentation Engineers, 1169, 98–106.
11.
Measures, R. M., Glossip, N. D., Lymer, J., and Tennyson, R. C.(1988). “Structurally integrated fiber optic damage assessment system for composite materials.”Proc., SPIE, Society of Photo-Optical Instrumentation Engineers, 986, 120–124.
12.
Pinnow, D. A. (1971). “Elasto-optical Materials.”Handbook of Lasers, R. J. Pressley, ed., CRC Press, Inc., Boca Raton, Fla.
13.
Timoshenko, S., and Young, D. H. (1968). Elements of Strength of Materials, 5th Ed., Van Nostrand Reinhold, New York, N.Y.
14.
Udd, E. (1988). “Overview of fiber optics applications to smart structures.”Proc., 14th Annual Rev. of Progress in Quantitative Nondestructive Evaluation, Plenum Press, New York, N.Y., 541–546.
Information & Authors
Information
Published In
Journal of Engineering Mechanics
Volume 124 • Issue 4 • April 1998
Pages: 385 - 394
Copyright
Copyright © 1998 American Society of Civil Engineers.
History
Published online: Apr 1, 1998
Published in print: Apr 1998
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.