When you want to achieve the highest level of anything, we can agree that taking steps are critical to achieve the goal.
To achieve greatness, you should follow these steps every time you start the process. Following a well defined process helps ensure you will experience success more often than not.
So how do powder coaters produce a flawless finished product? Why do problems happen at certain stages of the powder coating process that leave your product looking less than ideal? What can your coater do to ensure you get what you expect when you give them a job?
In this article, we’ll take a look at the 4 critical steps in ensuring the highest quality coating. By classifying and preparing the substrate, you’ll take the necessary steps to ensure the coating you apply will last. The coating process itself requires precision. If the product is not cured, everything you had done before may end up lacking in quality.
Our goal is to educate you on the importance of these 4 steps. These can make sure your items get coated well the first time.
The first step to achieving the highest quality coating is to identify the substrate. The substrate is the underlying substance on which the coating process will occur. Once you identify what material the coating process will be taking place on, you can then understand the proper way to coat the material.
This is especially critical because there is no one proper way to coat all the different substrates out there. For example, we use epoxies as corrosion protection coatings for factory-applied metal applications. They exhibit excellent adhesion to metals and offer high moisture-, chemical-, and impact-resistance. Knowing that you have this type of substrate gives you a better idea of the type of coating you’ll need to achieve the highest quality coating.
The second step in achieving the highest quality coating is to prepare the substrate. Now that you know what you’re going to coat, you’ll need to prepare it. This will give you a sort of blank canvas with which to coat. You’ll regain integrity in the substrate by ensuring proper preparation.
Within the preparation step are many, smaller steps that should to consider. They are:
The majority of the time consuming work that goes into powder coating will take place during this phase. Taking shortcuts during this phase increases the chance of a poor finished product, which can be difficult to restart from.
This step is the one that gets the most attention. This is likely because it’s the most intriguing aspect of powder coating. Here, we’ll try to take a pretty scientific process and break it down into it’s simplest form. After breaking it down, we’re sure you’ll love it as much as we do.
The coating process starts with knowing what it is that needs coated and making sure it’s prepared well. After taking these two steps, a free-flowing dry powder is applied electrostatically. It’s then cured under heat. This curing process allows the powder to “flow” and form a skin-like layer over the surface of the substrate. While we’ll dig deeper into the curing process later, there is a lot of information about the coating stage.
Powder coatings come in countless types. Achieving the most amazing coating ever means finding the correct powder for the substrate. For example, powders of an epoxy type are very well known. Epoxies provide a smooth and consistent finish. Epoxies also have a strong resistance to corrosion and chemicals. But, epoxies are unable to withstand lots of UV exposure. This limits their use on exterior-based products.
Polyester powders show significant resistance to UV exposure. They offer strong adhesion properties and excellent gloss retention, even when exposed to the elements. Polyesters are often found on outside fencing, outdoor decorative items and lawn and garden furniture.
Although there are many other powder types to consider, it’s important to know how each interact with its environment once applied. Knowing where your coated item will be and what functions it will serve will go a long way in ensuring you achieve an amazing coating.
This final step is what, to us, makes powder coating so interesting. Only after the curing process is complete can someone believe that powder was first sprayed onto the metal surface to achieve this result. Without baking the powder at extreme temperatures for an extended period of time, most would picture spraying water from a hose to wash a car and all the water dripping off. But this is the last step.
Unlike painting, powder coating requires a curing process to finish the coating. While painting works well in particular applications, the curing of a powder coating is what makes it a favorite in lots of various situations.
Curing takes place when a sprayed-on powder is exposed to elevated temperature. At these temperatures, the powder begins to melt, flow out, and then chemically reacts to bond into a network-like structure. This curing process, also called crosslinking, requires a certain temperature for a certain length of time. This establishes the full film properties for which the powder was designed.
Powders normally cure at 200 °C (390 °F) for 10 minutes. The curing schedule could vary according to the powder manufacturer’s specifications. Energy applied to the product for curing can occur using convection cure ovens, infrared cure ovens, or by laser curing process.
And there you have it. The 4 steps to achieving the most amazing coating…ever. Identifying the material helps determine the best way to prepare it. After removing any imperfections in the preparation stage, you’ll be ready to apply the proper coating. Be sure to decide on the proper powder for the application to extend the life of the item being coated. Lastly, curing the coating finalizes the chemical process that establishes the proper barrier that will protect your property for years to come.