Server maintenance is scheduled for Saturday, December 21st between 6am-10am CST.

During that time, parts of our website will be affected until maintenance is completed. Thank you for your patience.

Menu
Search
Filters
Close
Menu

Use GIVING24 at checkout to save 20% on eCourses and books (some exclusions apply)!

51318-11581-Exploratory evaluation of interface effects of cathodic prevention in concrete

Picture for Exploratory evaluation of interface effects of cathodic prevention in concrete
Available for download

Experiments on whether an intrinsic (predominantly interfacial effects of polarization) or an extrinsic (predominantly concentration changes due to polarization) mechanism may be dominant in the cathodic polarization of steel in concrete.

Product Number: 51318-11581-SG
Author: Krittin Rattakham / Alberto A. Sagüés
Publication Date: 2018
Industry: Cathodic Protection
$0.00
$20.00
$20.00

Exploratory experiments were conducted seeking to provide empirical information on whether an intrinsic (predominantly interfacial effects of polarization) or an extrinsic (predominantly concentration changes due to polarization) mechanism may be dominant in the beneficial effect of cathodic polarization during cathodic prevention of steel in concrete. Tests used concrete specimens, each with a cast-in steel plate, constantly exposed to a high-chloride environment. The specimens were polarized at 4 different levels ranging from open circuit to -400 mV vs Saturated Calomel Electrode. Shortly after corrosion started specimens were demolished and measurements of pH using a novel procedure, and of chloride ion concentration, were done on the steel concrete interface. The experimental data confirmed the general expectation that concrete reinforcement benefits from cathodic polarization, as the specimens polarized at high cathodic polarization voltage tended to take longer to reach an active corrosion condition. The interfacial pH and chloride ion concentrations measured favored to some extent a dominant intrinsic mechanism interpretation, while the evidence in support of a dominant extrinsic mechanism interpretation at these moderate polarization levels remained elusive.

Key words: corrosion, passive film, in-situ leaching, pH, chloride threshold

Exploratory experiments were conducted seeking to provide empirical information on whether an intrinsic (predominantly interfacial effects of polarization) or an extrinsic (predominantly concentration changes due to polarization) mechanism may be dominant in the beneficial effect of cathodic polarization during cathodic prevention of steel in concrete. Tests used concrete specimens, each with a cast-in steel plate, constantly exposed to a high-chloride environment. The specimens were polarized at 4 different levels ranging from open circuit to -400 mV vs Saturated Calomel Electrode. Shortly after corrosion started specimens were demolished and measurements of pH using a novel procedure, and of chloride ion concentration, were done on the steel concrete interface. The experimental data confirmed the general expectation that concrete reinforcement benefits from cathodic polarization, as the specimens polarized at high cathodic polarization voltage tended to take longer to reach an active corrosion condition. The interfacial pH and chloride ion concentrations measured favored to some extent a dominant intrinsic mechanism interpretation, while the evidence in support of a dominant extrinsic mechanism interpretation at these moderate polarization levels remained elusive.

Key words: corrosion, passive film, in-situ leaching, pH, chloride threshold

Product tags
Also Purchased
Picture for CATHODIC PREVENTION-PROTECTION OF STEEL IN CRACKED CONCRETE
Available for download

51318-11584-CATHODIC PREVENTION-PROTECTION OF STEEL IN CRACKED CONCRETE

Product Number: 51318-11584-SG
Author: M. Dugarte / A.A. Sagüés
Publication Date: 2018
$20.00

This work seeks to determine the performance of cathodic prevention (CPrev) and cathodic protection (CP) systems applied to cracked concrete in a simulated marine environment.
Picture for Cathodic Protection on Steel Reinforced Concrete Marine Structures
Available for download

Cathodic Protection on Steel Reinforced Concrete Marine Structures

Product Number: 51317--9219-SG
ISBN: 9219 2017 CP
Author: Douglas Leng
Publication Date: 2017
$20.00

The use of cathodic protection has become the preferred method for mitigating corrosion of steel reinforcement in concrete. A wide variety of both impressed current and sacrificial systems have been effectively used to control the effects of corrosion.
Picture for 51318-11271- AC Corrosion Control: When Too Much Cathodic Protection Might Just be a Bad Thing!
Available for download

51318-11271- AC Corrosion Control: When Too Much Cathodic Protection Might Just be a Bad Thing!

Product Number: 51318-11271-SG
Author: Dale Lindemuth / Dan Crabtree
Publication Date: 2018
$20.00

Case histories where throttling down the cathodic protection was evaluated to determine the impact on reducing the AC corrosion threat. Includes the use of fast-response electrical resistance corrosion rate probe monitoring technology.
Categories
Industry
Recently viewed
Popular tags
View all

Association for Materials Protection and Performance

© AMPP All Rights Reserved.
Membership Terms of Content Use
Contact Customer Support