Search
Filters
Close

Save 20% on select titles with code HIDDEN24 - Shop The Sale Now

07391 Multielectrode Penetration Sensor for Monitoring Localized and General Corrosion

Product Number: 51300-07391-SG
ISBN: 07391 2007 CP
Author: Xiaodong Sun and Lie Yang
Publication Date: 2007
$0.00
$20.00
$20.00
The concept of multielectrode penetration probes for corrosion monitoring is introduced. A penetration probe that can be used in both open and closed or pressurized systems was fabricated with aluminum foil and tested in simulated seawater and in simulated seawater plus 10 mM ferric chloride solutions. The average penetration rates measured from the multilayer multielectrode penetration probe for the aluminum foil was approximately 0.73 mm/yr (29 mil/yr) in the simulated seawater, and 12.5 mm/yr (490 mil/yr) in the simulated seawater plus ferric chloride solution, respectively. The measured penetration rates in simulated seawater compare well with the maximum localized corrosion rates measured with coupled multielectrode array sensor probes made with Type 3003 aluminum (0.2 to 1.1 mm/yr) and Type 1100 aluminum (0.2 to 0.5 mm/yr). The measured penetration rates in simulated seawater plus 10 mM ferric chloride solution compare well with the maximum localized corrosion rates measured with the coupled multielectrode array sensor probe made with Type 1100 aluminum (7 to 40 mm/yr). The penetration breakthrough times measured with the multilayer penetration probe in the simulated seawater (6.7 to 9 days for one layer of foil) also compare well with the perforation time observed in the immersion test with foil specimens cut from the same foil used in the multilayer penetration probe (6 days).
The concept of multielectrode penetration probes for corrosion monitoring is introduced. A penetration probe that can be used in both open and closed or pressurized systems was fabricated with aluminum foil and tested in simulated seawater and in simulated seawater plus 10 mM ferric chloride solutions. The average penetration rates measured from the multilayer multielectrode penetration probe for the aluminum foil was approximately 0.73 mm/yr (29 mil/yr) in the simulated seawater, and 12.5 mm/yr (490 mil/yr) in the simulated seawater plus ferric chloride solution, respectively. The measured penetration rates in simulated seawater compare well with the maximum localized corrosion rates measured with coupled multielectrode array sensor probes made with Type 3003 aluminum (0.2 to 1.1 mm/yr) and Type 1100 aluminum (0.2 to 0.5 mm/yr). The measured penetration rates in simulated seawater plus 10 mM ferric chloride solution compare well with the maximum localized corrosion rates measured with the coupled multielectrode array sensor probe made with Type 1100 aluminum (7 to 40 mm/yr). The penetration breakthrough times measured with the multilayer penetration probe in the simulated seawater (6.7 to 9 days for one layer of foil) also compare well with the perforation time observed in the immersion test with foil specimens cut from the same foil used in the multilayer penetration probe (6 days).
Product tags
Also Purchased
Picture for 07388 Thin Film Sensors in Corrosion Application
Available for download

07388 Thin Film Sensors in Corrosion Application

Product Number: 51300-07388-SG
ISBN: 07388 2007 CP
Author: Lisa Reiner and Behzad Bavarian
Publication Date: 2007
$20.00
Picture for 07390 A Nanostructured, Field Effect Transistor-Based Sensor
Available for download

07390 A Nanostructured, Field Effect Transistor-Based Sensor

Product Number: 51300-07390-SG
ISBN: 07390 2007 CP
Author: Kuang-Tsan Kenneth Chiang and B. Lanning
Publication Date: 2007
$20.00
Picture for 07387 Embedded Coating Degradation Sensors for Monitoring Performance of Temporary Coatings
Available for download

07387 Embedded Coating Degradation Sensors for Monitoring Performance of Temporary Coatings

Product Number: 51300-07387-SG
ISBN: 07387 2007 CP
Author: James Dante and Ashok Sabata
Publication Date: 2007
$20.00