Title :
Capacitive Sensor for Measuring the Filled of Post-Tensioned Ducts. Experimental Setup, Modeling and Signal Processing
Author :
Bore, T. ; Placko, D. ; Taillade, F. ; Himbert, M.
Author_Institution :
French Inst. of Sci. & Technol. of Transp. Conversions & Networks, Univ. Paris Est, Paris, France
Abstract :
This paper presents a newly developed system for bridges post-tensioned devices inspection. These devices are generally composed of cables placed inside a duct, the residual space being filled with a particular cement to avoid corrosion. The nondestructive experimental setup uses a capacitive sensor that gives some relevant information about the electrical properties of the materials located inside the duct. Then, using an original modeling of the interactions between the sensor and the post-tensioned device, a signal processing extracts useful information from the sensors data, like the thickness of an eventual air gap between the cement and the duct. Experimental and theoretical derivations and comparisons are presented in the different parts of this paper.
Keywords :
bridges (structures); cables (mechanical); capacitive sensors; cements (building materials); corrosion protection; ducts; electric properties; inspection; nondestructive testing; signal processing; air gap thickness; bridge inspection; bridges; cables; capacitive sensor; cement filling; corrosion avoidance; electrical properties; information extraction; materials properties; nondestructive experimental setup; post-tensioned devices; post-tensioned duct filled measurement; residual space; sensor data; signal processing; Capacitance; Couplings; Ducts; Electrodes; Materials; Mathematical model; Probes; Analytical method; capacitive probe; civil engineering structure; post-tensioned duct; sensor modeling;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2012.2219392
