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

01609 SELECTION OF FIELD APPLIED LIQUID REHABILITATION PIPELINE COATINGS

Product Number: 51300-01609-SG
ISBN: 01609 2001 CP
Author: Paul R. Nichols, Benjamin T. A. Chang, and Howard R. Mitschke
$0.00
$20.00
$20.00
There are over five dozen field applied liquid reh~ibilitation pipeline coatings in the US market with limited performance data available from suppliers. Although there are many test methods in the literature for evaluation of pipe coatings, there are no commonly accepted test protocol and acceptance criteria for selecting coatings. End users have a great difficulty to select appropriate coatings to protect their buried pipelines. Also, no convincing technical data can be obtained from suppliers to help us determine the upper service temperature for a coating. Some coatings have long dry-to-touch time and attract insects to crawl over the wet paints at night to produce holidays which require repairing the next day. The purpose of this work is to develop a test protocol considering both application convenience and good performance and to select the coatings to rehabilitate our pipelines. The attributes for application convenience are environmental friendliness, pot life, dry-to-touch time, backfill time, etc. The coating performance includes cathodic disbondment, penetration, impact, and abrasion resistance. The acceptance criteria have also been developed to make the selection. Test methods to determine upper service temperature for the coatings were also developed. This test protocol is using standard ASTM test methods with slight modifications and can be used by both coating suppliers and end users.
There are over five dozen field applied liquid reh~ibilitation pipeline coatings in the US market with limited performance data available from suppliers. Although there are many test methods in the literature for evaluation of pipe coatings, there are no commonly accepted test protocol and acceptance criteria for selecting coatings. End users have a great difficulty to select appropriate coatings to protect their buried pipelines. Also, no convincing technical data can be obtained from suppliers to help us determine the upper service temperature for a coating. Some coatings have long dry-to-touch time and attract insects to crawl over the wet paints at night to produce holidays which require repairing the next day. The purpose of this work is to develop a test protocol considering both application convenience and good performance and to select the coatings to rehabilitate our pipelines. The attributes for application convenience are environmental friendliness, pot life, dry-to-touch time, backfill time, etc. The coating performance includes cathodic disbondment, penetration, impact, and abrasion resistance. The acceptance criteria have also been developed to make the selection. Test methods to determine upper service temperature for the coatings were also developed. This test protocol is using standard ASTM test methods with slight modifications and can be used by both coating suppliers and end users.
PRICE BREAKS - The more you buy, the more you save
Quantity
1+
5+
Price
$20.00
$20.00
Product tags
Also Purchased
Picture for 00760 LIQUID COATINGS FOR PIPELINE REPAIR
Available for download

00760 LIQUID COATINGS FOR PIPELINE REPAIR AND REHABILITATION

Product Number: 51300-00760-SG
ISBN: 00760 2000 CP
Author: Ernest W. Klechka
$20.00
Picture for 00758 POLYURETHANE AND EPOXY COATINGS FOR THE
Available for download

00758 POLYURETHANE AND EPOXY COATINGS FOR THE REHABILITATION AND REPAIR OF PIPELINES

Product Number: 51300-00758-SG
ISBN: 00758 2000 CP
Author: W.R. Roder, D Norman and R Swinburne,
$20.00
Picture for 00757 FBE, a Foundation for Pipeline Corrosion
Available for download

00757 FBE, a Foundation for Pipeline Corrosion Coatings

Product Number: 51300-00757-SG
ISBN: 00757 2000 CP
Author: J. Alan Kehr and David G. Enos
$20.00