Electrostatic Coating is a coating process designed to help prevent shorts in power lines and reduce power transfer through metal alloys. This is done by the application of an electrostatic charge, which causes a change in the atoms of the metal and changes their valence. The change results in the creation of an electrostatic field that is charged and is applied to the material being protected. These fields are very similar to that created by an electric shock. Although not painful in any way, they do create an electric charge because they are so close in proximity to the metal that there is no gap in between them. These charge changes create a charge that is electrostatic, which acts like an electroshock.
There are two types of electrostatic coating processes that can be used. The first is a fluidized coating where a liquid is sprayed onto the surface to be protected. Then the fluid is allowed to dry, harden, and then once the protective layer has been formed, the liquid is sprayed again. This second type of coating process is more effective but is also the most costly.
Another electrostatic coating process is the fluidized coating. In this process, a thick liquid coating is applied over the area to be protected. Once it has cured, the top coating is peeled off and the layer beneath it is sprayed on. Again, this type of coating is the most effective for protecting metals with high voltage electrostatic charge, but it is also the most expensive and it creates the highest level of surface tension, which is what causes shorts in power lines.
Fluidized coatings are far less effective at protecting against electrostatic charge, but they are much less expensive. In the past, the best electrostatic coating processes were fluidized and encapsulated. However, recent advances have produced an encapsulation process that produces far fewer problems and allows for a much lower cost than fluidized coatings. The fluid is sprayed directly onto the area to be protected.
A new electrostatic coating process called the roll coating is also used today. In this process, a powder like substance is applied to the area to be protected. When this powder coating is dried, it will create a thin film of the same powder coating thickness throughout the area to be protected. It also forms a protective layer that will not allow any type of moisture to penetrate the surface. Once it has dried and set, you will have a thin protective layer that protects against electrostatic discharges.
One type of electrostatic coating process that is used on a great number of products is called the single Component coating operation. In this process, a single Component coating material is applied to the surface to be protected. There are different sizes of particles that can be used. For example, if you are applying electrostatic coatings to components that are made of plastic, you would use particles that are slightly larger than the plastic itself.
Some of the products that can be protected by a single Component electrostatic coating process are paint coatings. This type of coating process is used to protect parts that are made out of plastic. Some paints that you can purchase today use this type of electrostatic charge protection to help protect your vehicle from electrostatic discharges. This is important because paint coatings are not made to be resistant to discharges; therefore, they cannot withstand discharges. Electrostatic charge transfer efficiency is necessary if you want to make sure that your paint coatings stay in good condition for many years to come.
Electrostatic coating processes are quite a beneficial way to help your business. You should consult with spray gun experts if you are looking for a way to improve the efficiency of your electrostatic painting job. These experts can tell you if your spraying equipment is equipped to handle the higher levels of charge that will be transferred when you perform this procedure. Most spray guns will be able to handle the extra pressure that will come along with these types of finishing consultants.