Q: I am considering using infrared for my process and I am concerned about line-of-sight issues. What exactly is this and is it an issue in a powder coating operation?
A: Great question! To understand line-of-sight, you first must understand infrared, which is basically light energy. It is part of the electromagnetic scale just below visible light. When you stand in the sun, you feel the line-of-sight energy of warmth. When you move to the shade, you feel the line-of-sight energy being blocked. In process heating, line-of-sight is the ability of the infrared energy to see the part. When a part has a complex shape, interior portions can be shielded from the light energy basically restricting the light from “seeing” all surfaces of the part, thereby creating a line-of-sight challenge.
If light energy cannot see all areas of the part, does that mean infrared will not work on anything other than a flat part? In theory that is correct because light cannot see around corners. However, in real-world applications, infrared can be used to heat and cure even complex weldments.
To get the benefits of infrared on a complex part, another part of heat transfer physics, conduction, plays a huge role. Conduction is transferring thermal energy through direct contact with matter. If you put a metal poker in a fireplace and leave it, the heat will “conduct” up the handle. Most commonly in powder coating, convection heat is used to cure complex shapes. The oven’s hot air does not bend around the corners of the part either, but the length of time allows conduction to help the part cure itself. The heat transfers via conduction into the hidden areas to cure anything the hot air cannot easily reach. With infrared, you can accomplish the same result on complex parts, only faster also through conduction. For instance, a gas catalytic oven is typically 3X faster than convection, but a complex weldment can still be cured through the assistance of conduction. With electric infrared, the process can be up to 10X faster than convection cures, however, the speed reduces the time for conduction to play a role as the part is not in the oven long enough.
Another consideration is how are you considering using infrared in your line? In a boost or gel application, it is typically not a major issue. The point of a boost is to accelerate the curing process so that less time in a cure oven is needed. The only way to speed conduction is through higher temperatures so a boost will drive more heat into a part much quicker than the convection oven can. Even if there are line-of-sight restrictions, the point is to accelerate conduction so those issues will typically be resolved in the cure oven. A boost or gel oven, though, still should be designed to ensure infrared energy coverage around the part to limit the line-of-sight issues. The better coverage you have, the less this will be an issue. If you are considering a cure application using infrared, line-of-sight can pose a bigger challenge. If the products are basically flat, you have no line-of-sight challenges, so cure is easily and quickly attained. If your parts have a complex shape, then your materials handling may be of assistance such as rotating the part in an overhead or chain-on-edge configuration. If the parts are not moveable, then you need conduction to also play a role. You still should be able to cure the product in about a third of the time vs. convection and possibly faster.
Read more: Cleveland Ohio Powder Coating: Understanding Infrared Line-of-Sight
