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This paper will explore several variables which affect the tungsten carbide coating material deposited by a high velocity thermal spray process (HVTS) on Oil & Gas components such as valve sealing components (gate, ball, seat) and on other equipment (pistons for example on BOP’s or Blow Out Preventers). The purpose of coating these components is to gain wear/abrasion resistance as well as to impart some corrosion resistance.
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Solventborne alkyd resins are widely used in industrial coatings because of their excellent gloss, good adhesion and wetting properties as well as excellent compatibility with other resin types. In many regions, however, the consumption of alkyds is diminishing as stringent environmental regulations drive the coatings industry towards lower volatile organic compound (VOC) systems. Waterborne (WB) coating systems have replaced some solventborne (SB) alkyd paints; however, these WB coatings typically do not offer the same performance as their solventborne counterparts.
Current and impending environmental regulations are leading to the development and use of new technologies in a variety of marine and protective coatings applications. Among the various challenges presented to the coatings industry, the desire to decrease the level of volatile organic compounds (VOCs) in traditional solventborne coatings ranks among the most prevalent.
The evaluation of clear waterborne acrylic coatings as topcoats in field-applied protective coating systems will be described. Clear coatings were evaluated over both waterborne and solventborne systems. The results of the effects of waterborne systems on properties such as corrosion resistance, gloss, and accelerated weathering will be discussed.