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.

Search
Filters
Close

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

02158 SELF-HEALING COATINGS

Product Number: 51300-02158-SG
ISBN: 02158 2002 CP
Author: Ashok Kumar and L.D. Stephenson
$0.00
$20.00
$20.00
The efficacy of a "self-healing" corrosion protection coating system for use on steel enclosures for outdoor equipment has been investigated. Urea formaldehyde microcapsules (60-150 microns in diameter) that contained several types of film forming compounds (healants) and corrosion inlaibitors were mixed into commercially available coatings systems. Laboratory tests showed that when the coating system was damaged by abrasion, the mierocapsules broke open and released their film forming and corrosion inhibiting compounds, thus initiating the self-healing process, in which the damaged area of the coating is covered and repaired, and corrosion of the substrate is inhibited. Steel substrates coated with these self-healing systems were scribed and laboratory tested according to ASTM D 5894, in which the specimens are alternately subjected to salt spray and ultraviolet exposure. The coated test specimens were evaluated with respect to undercutting at the scribe in accordance with ASTM D 1654. The undercutting was reduced from 2.12 mm to 0.46 mm at the scribe by using microcapsules containing phenolic varnish, a long chain polyester diluent, a second carrier/diluent based on high molecular weight hydrocarbons and a corrosion inhibitor. Electrochemical impedance spectroscopy (EIS) tests showed that the incorporation of self-healing mierocapsules resulted in significantly higher impedances for exposed coatings than for similar coatings containing no microcapsules.
The efficacy of a "self-healing" corrosion protection coating system for use on steel enclosures for outdoor equipment has been investigated. Urea formaldehyde microcapsules (60-150 microns in diameter) that contained several types of film forming compounds (healants) and corrosion inlaibitors were mixed into commercially available coatings systems. Laboratory tests showed that when the coating system was damaged by abrasion, the mierocapsules broke open and released their film forming and corrosion inhibiting compounds, thus initiating the self-healing process, in which the damaged area of the coating is covered and repaired, and corrosion of the substrate is inhibited. Steel substrates coated with these self-healing systems were scribed and laboratory tested according to ASTM D 5894, in which the specimens are alternately subjected to salt spray and ultraviolet exposure. The coated test specimens were evaluated with respect to undercutting at the scribe in accordance with ASTM D 1654. The undercutting was reduced from 2.12 mm to 0.46 mm at the scribe by using microcapsules containing phenolic varnish, a long chain polyester diluent, a second carrier/diluent based on high molecular weight hydrocarbons and a corrosion inhibitor. Electrochemical impedance spectroscopy (EIS) tests showed that the incorporation of self-healing mierocapsules resulted in significantly higher impedances for exposed coatings than for similar coatings containing no microcapsules.
PRICE BREAKS - The more you buy, the more you save
Quantity
1+
5+
Price
$20.00
$20.00
Product tags
Also Purchased
Picture for 04001 Progress in Offshore Coatings
Available for download

04001 Progress in Offshore Coatings

Product Number: 51300-04001-SG
ISBN: 04001 2004 CP
Author: Michael J. Mitchell, International Coatings Ltd.
$20.00
Picture for 10038 Characterization of Internal and External Coatings Used on steel Pipelines
Available for download

10038 Characterization of Internal and External Coatings Used on steel Pipelines

Product Number: 51300-10038-SG
ISBN: 10038 2010 CP
Author: Steven Waters, Haralampos Tsaprailis, William Kovacs III, Joshua Tuggle and Luis Garfias-Mesias
Publication Date: 2010
$20.00