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Ours is an age of stringent VOC regulations and one of the positive responses from coating formulators has been the advent of innovative high solids coatings that contain exempt solvents. While proper surface preparation for applying lining systems has always been crucial to long term coating success our field experience has shown that this is all the more the case with coatings formulated with one or more exempt solvents.
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Due to its success in the ductile iron wastewater pipe market, ceramic epoxy coatings are being increasingly specified and successfully applied on nearly every substrate used for immersion service in both the water & wastewater industry. Some unique characteristics set these epoxy coatings apart from their traditional counterparts. For instance, ceramic epoxy systems provide high-film builds, eliminate undercutting, minimize permeability, provide superior edge retention and form a non-ablative film.
Industry constantly seeks improved methods to evaluate protective coatings. In immersion service, protective coatings act to reduce electrochemical activity at the metal/coating interface. Tracking this activity via the use of segmented panel testing appears to offer additional insight into coating performance that may aid in coating design and predicting longer-term performance.
Stainless steel is selected for use in the municipal waterworks industry because of its inherent corrosion resistance properties. Designers oftentimes overlook the associated problems with coupling stainless steel with carbon steel metals. When these materials are electrically connected and placed into aqueous environments (immersion service) accelerated corrosion of the anodic carbon steel metal is initiated.
REAFFIRMATION. This AMPP standard test method specifies procedures to evaluate cathodic disbondment resistance of the steel structure coating systems under cathodic protection, such as buried or submerged pipeline and tank linings. The standard covers all test specimen geometries and test temperatures. This standard also takes into consideration all test parameters with the goal of the standard to be used during the selection of protective coating systems for use under cathodic protection. This test method is intended for use by facility owners, coating applicators, and coating manufacturers.
Requirements for the design, fabrication, and surface finish of tanks to be lined for immersion service. Tanks may be lined for corrosion control or to prevent product contamination. Historical Document 1995
Guidelines for the selection and installation of liquid organic coatings to be used over concrete exposed to immersion conditions and severe chemical splash and spillage. Historical Document 1992
This coating material standard is intended primarily for use by coating manufacturers, specifiers, and applicators. It contains requirements for the formulation of the coating material as well as requirements for material properties of the formulated coating and instructions for proper application of the coating. The coating is intended for use in environments that are not exposed to ultraviolet light. Its use may be restricted in some areas due to its coal tar content.
Two test methods for evaluating the performance of protective coatings and linings used as lining materials in immersion service: one-side testing of the panel and immersion testing of the panel. Historical Document 1991
Two test methods for evaluating the performance of protective coatings and linings used as lining materials in immersion service: one-side testing of the panel and immersion testing of the panel. Historical Document 1996