Understanding Electrostatic Coating Technologies
Electrostatic coatings have been around for decades and they are becoming more popular in industrial coatings. There are many uses for electrostatic coating in both the commercial and residential sectors. In both the commercial and residential sectors there are multiple reasons to use a coating other than simply protecting metals and preventing them from being scratched and dented. Some of the common uses for electrostatic coating are mentioned below. These coating technologies are important due to their ability to provide superior protection, flexibility, durability, and increased resistance to abrasion, moisture, and chemicals.
There are two main categories of electrostatic protection coatings that are commonly used. These are static reduction coatings and electrostatic shielding coatings. These two types of coatings provide similar benefits with the added ability to prevent abrasion and moisture absorption from occurring. Both provide exceptional electrostatic protection to prevent any harm to materials.
One of the most common types of electrostatic coating is a static control coating. This coating is used for the protection of electrical panels and circuit breakers. The purpose of this coating is to reduce or eliminate the static, which is caused by passing an electric current through an area. This helps to keep power equipment from having to work so hard in order to maintain a constant current flow through a system.
Another type of coating technology is one that is used for electrostatic protection of materials. This coating can be used on metal surfaces as well as wooden and other textured materials. Some of the materials that may be treated with this coating technology include: concrete, copper, steel, glass, granite, marble, ceramic tile, porcelain, and soapstone.
There are many different applications for electrostatic coating technologies. One of these applications is for the protection of electrical components. Many components need protection in order to prevent corrosion. Other applications include refrigeration coils, electronic equipment such as computers, cell phones, electric motors, pumps, and heating systems. In these cases the coating is used to protect the component from damage caused by electrostatic discharges.
Electrostatic coatings are also used in industries that deal with hazardous liquids. Some examples of these are chemicals and laboratory equipment. Many of the coatings that are used in these instances are Teflon coated coatings. These types of coatings are made to resist corrosion and are resistant to heat, but not stain. Coatings that are used for this purpose have been shown to last many times longer than typical coatings.
Electrostatic coatings have also found their way into the realm of residential home improvement projects. Kitchens and bathrooms often use these coatings to help protect appliances and other items within the home from damage caused by electrostatic discharges. These coatings can be applied to appliances to help prevent corrosion. They can also be applied to plumbing to help prevent corrosion from moisture. And, finally, they are often used on exterior surfaces to help prevent corrosion and protect from weathering. The coatings are also used in industrial applications in a variety of applications, but there are so many to discuss that it would make this article very long.
As you can see, there are many uses for electrostatic coating technologies. The important thing is to understand how these coatings work, why they are important, and how they can benefit you. A good investment in this technology is an important one. You should consider your needs and research your application to find the right coating for your project. This technology has many applications, but is especially suited for many countertop applications. For more information on electrostatic coatings please visit the US Electrostatic Coatings Association website.