Corrosion of steel and steel reinforced infrastructures is urgently needed to address, since most of them have been in service for a long time and aging at a rapid pace. This project is exploring a robust sensor system that can accurately determine the corrosion state of steel structures during service; thereby, giving a chance to accurately estimate the durability and prevent catastrophic failure. This paper addresses preliminary work on sol-gel sensors to detect corrosion. As one of the most ubiquitous and mobile ions, chloride contacts and diffuses into the steel and thus leads to corrosion. Sol-gel is an amorphous, mechanically stable, inert, and porous material that has been found to change its conductivity as a function of the amounts of chloride it absorbs. Therefore, sol-gel sensors may be attached to the steel to detect the amounts of available chloride for corrosion. The sensors can be tailored for its sensitivity to chloride concentration, dimension, and compatibility to sensor circuit. We have found that the sol-gel sensors exhibit a systematic trend in detecting the existence and the concentration of chloride ion. The methods of sol-gel preparation, characterization, and responses to chloride concentration are investigated and reported in this study.

Subject
Electric current, Test methods, Coatings, Sensors, Sodium chloride, Solgels, Corrosion detection, Capacitance, Sodium chloride solution, Salt concentration, Steel, Chlorides, Electrodes
Keywords:
Sol-gel, corrosion, sensor, capacitance, steel, chloride
© 2012 Association for Materials Protection and Performance (AMPP). All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise) without the prior written permission of AMPP. Positions and opinions advanced in this work are those of the author(s) and not necessarily those of AMPP. Responsibility for the content of the work lies solely with the author(s).
2012
Association for Materials Protection and Performance (AMPP)
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