TDR Monitoring for Integrity of Structural Systems
Publication: Journal of Infrastructure Systems
Volume 6, Issue 2
Abstract
Most infrastructures are made up of large number of parts, such as truss members and bridge decks. Relative movement of the connections between members causes load redistribution or even failure. Monitoring the integrity of the structural system can assure its performance and safety. TDR (time domain reflectometry) is proposed here as a multiple-points smart monitoring system using only one coaxial cable as the sensing and conducting medium all the way through the monitored structure. The cable is fixed at both ends of each pair of adjacent members to be the sensing device along itself. Relative movements between the members at the connecting points are monitored simultaneously by sending a fast-rise impulse into the cable. When lateral movement occurs, the cable will deform, having the effect of adding an equivalent capacitance at that point and causing the signature to jump up. When two adjacent blocks move apart from each other, the cable will be extended and cause its characteristic impedance change. The most important ability for a TDR system to have is to locate the relative movement along the cable that is very clearly shown in the time domain signature. The pulse of a TDR tester can go a few thousand feet, which gives enough monitoring range for most infrastructure.
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References
1.
Cole, R. H. (1975). “Evaluation of dielectric behavior by time domain spectroscopy: 1. Dielectric response by real time analysis; 2. Complex permeability; 3. Precision difference methods.” J. Phys. Chem., 79(4), 1459–1474.
2.
Dowding, C. H., and Huang, F.-C. (1994). “Early detection of rock movement with time domain reflectometry.”J. Geotech. Engrg., ASCE, 120(8), 1413–1427.
3.
Dowding, C. H., Su, M. B., and O'Connor, K. M. (1989). “Measurement of rock mass deformation with grouted coaxial antenna cables.” Rock Mech. and Rock Engrg., Vol. 22, 1–23.
4.
Dowding, C. H., Su, M. B., and O'Connor, K. M. (1988). “Principles of time domain reflectometry applied to measurement of rock mass deformation.” Int. J. Rock Mech. Min. Sci., 25(5), 287–297.
5.
Lin, M. W., Abatan, A. O., and Danjaji, M. B. (1997). “Electrical time domain reflectometry sensing cables as distributed stress/strain sensors in smart material systems.” Proc., SPIE's 4th Annu. Symp. on Smart Struct. and Mat., International Society for Optical Engineering, Bellingham, Wash., Vol. 3024, 33–44.
6.
Lin, M. W., Abatan, A. O., and Zhang, W. (1998). “Crack damage detection of structures using electrical time domain reflectometry (ETDR) sensors.” Proc., 5th Annu. Symp. on Smart Struct. and Mat., SPIE, San Diego, CA, Vol. 3325, 173–180.
7.
Moffit, L. R. (1964). “Time domain reflectometry—Theory and applications.” Engrg. Des. News, 38–44.
8.
Pierce, C. E., Bilaine, C., Huang, F.-C., and Dowding, C. H. (1994). “Effects of multiple crimps and cable length on reflection signatures from long cables.” Proc., Symp. on Time Domain Reflectometry in Envir., Infrastructure, and Min. Applications, Spec. Publ. SP 19-94, NTIS PB95-105789, U.S. Bureau of Mines, Washington, D.C., 540–554.
9.
Su, M. B. (1990). “Fracture monitoring within concrete structure by time domain reflectometry.” Engrg. Fracture Mech., Vol. 35, 313–320.
10.
Su, M. B., and Chen, Y. J. (1998). “Multiple reflection of time domain reflectometry.” Experimental Techniques, 22(1), 26–29.
11.
Topp, G. C., Davis, J. C., and Annan, A. P. (1980). “Electromagnetic determination of soil water content: Measurements in coaxial transmission lines.” Water Resour. Res., 16(3), 574–582.
Information & Authors
Information
Published In
Journal of Infrastructure Systems
Volume 6 • Issue 2 • June 2000
Pages: 67 - 72
History
Received: Jul 8, 1998
Published online: Jun 1, 2000
Published in print: Jun 2000
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