Powder Coated Steel Bolted Tanks
Climate Tanks™ powder coating has a dry finishing process that uses finely ground particles of pigment and resin that are electrostatically charged and sprayed onto electrically grounded parts. The charged powder particles adhere to the part and are held there until melted and fused into a uniform coating in a curing oven. Since its introduction, powder coating has grown in popularity and is now used by many manufacturers of industrial, commercial, and agricultural products. Powder coated finishes resist scratches, corrosion, abrasion, chemicals and detergents, and the process can cut costs, improve efficiency and facilitate compliance with environmental regulations. Because powder coating materials contain no solvents, the process emits negligible, if any, volatile organic compounds (VOCs) into the atmosphere. It requires no venting, filtering or solvent recovery systems such as those needed for liquid finishing operations. Exhaust air from the powder booth can be safely returned to the coating room, and less oven air is exhausted to the outside, making powder coating a safe, clean finishing alternative and saving considerable energy and cost. Powder coating requires no air-drying or flash-off time. Parts can be racked closer together than some liquid coating systems and more parts can be coated automatically. It is very difficult to make powder coating run, drip or sag, resulting in significantly lower reject rates for appearance issues.
There are two types of powder coatings: thermoplastic and thermosetting. Thermoplastic powders melt and flow when heat is applied but they continue to have the same chemical composition once they cool and solidify. Thermosetting powder coatings also melt when exposed to heat, but they then chemically cross-link within themselves or with other reactive components. The cured coating has a different chemical structure than the basic resin. Thermosetting coatings are heat-stable and, unlike thermoplastic powders, will not soften back to the liquid phase when re-heated. Thermoset powders can also be applied by spray application to develop thinner films with better appearance than some thermoplastic powder coatings.
The main driver in the development of powder coating materials was the pursuit of an environmentally friendly alternative to solvent-laden paints. In pursuit of a sprayable, low-VOC coating, Dr. Pieter g. de Lange of The Netherlands developed the process of hot melt compounding in a z-blade mixer. This made powder coating much more consistent. De Lange also developed the electrostatic spray application method for thermoset powder coatings in 1960. Using an addition of compressed air to the dry powder to “fluidize” the material, he was able to spray the coating and provide a decorative film. The process was introduced in the United States in the 1960s and rapid growth has continued.