How to Choose PCB Coating

Published on September 10, 2019 , Last modified on August 2, 2024
by Hommer Zhao

Electronic components used in the shipping, military, aerospace, and automotive industries have to work in high-humidity and high-temperature environments, causing damage. Moreover, PCB boards and their components may encounter defects such as softening, erosion, and deformation. Therefore, to ensure the functionality and longevity of the board, some PCB coating must be applied to the surface of the board.

Choosing the best/ideal type of layer and the selection principles for your application are essential. Sadly, weeding through a ton of information found online is tasking. Well, not anymore. This article will assist you with all the information you need regarding PCB coating functions and selecting principles, among others.

Understanding PCB Coating

Depending on its applicability, a printed circuit board can suffer from elements such as dust, moisture, and extreme temperatures, and as such, coatings are necessary. A surface is more of a protective, non-conductive layer applied to a PCB and its parts to protect it from damage.  There are several benefits associated with PCB coating worth noting.

  • Coated printed circuit boards last longer than those lacking some layer.
  • PCB coating helps to inhibit instances of corrosion by protecting the assembly against acid and chemical attacks.
  • Doing a coat prevents damage during board construction, installation, and applicability while protecting the board from thermal shock. 
  • Lately, PCB coating is skyrocketing because it enhances board performance while allowing for higher component density. According to a majority of printed circuit board manufacturers, coating ensures the avoidance of particulate contamination. Without any covering, particulate matter found on PCBs may encounter failure and affect a board’s functionality. 
  • The above is not all. PCB coating is also advantageous since it saves significant space by reducing a board’s conductor spacing. With PCB coating also, the need to have in place complex and sophisticated enclosures is eliminated. Such complex and sophisticated chassis are done away with since PCB coating safeguards a board’s entire assembly.
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Common Types of PCB Coating

There are several options for coating technologies, but the best choice depends on the protection required. While there are plenty of PCB coating options, there are five standard options based on the chemical makeup, as highlighted below:

Urethane Resin

This type of coating is well known for its chemical resistance and excellent moisture. Additionally, they are highly abrasion and solvent resistant, meaning that it is difficult to remove. This type of coating is prevalent in aerospace applications, whereby exposure to fuel vapor is every day. 

Acrylic Resin

Acrylic coating provides not only good elasticity but general protection, too. This type of surface is best due to its good moisture and abrasion resistance in addition to its vast dielectric strength. Better yet, acrylic coatings are quick and easy to remove using several solvents, making field repair and rework economical. 

Epoxy Resin 

Epoxy resins are available or come in two-part compounds. Epoxy resin comes with a tough coating. This type of surface offers excellent humidity resistance and is not porous like other forms of layers. They are also highly resistant to abrasion and chemicals. Generally, they are difficult to remove when curing is done and not as flexible as other materials. 

Silicone Resin

This type of coating provides the best protection in a wide range of temperature changes. Silicone resin is very flexible and offers excellent chemical, salt spray, and moisture resistance. Sadly, this type of adhesive is not abrasion-resistant due to its rubbery nature, but this property doesn’t make it resilient against constant vibrations. Silicone coatings are standard in devices operating in high-humidity places such as outdoor signage. 

Parylene Coating

Parylene coating is a unique type of surface carried out through vapor phase deposition. The parylene layer provides good dielectric strength and is superior to solvents, high temperatures, and moisture. Due to the vapor deposition method, this type of surface can be applied thin and still offer excellent board protection. 

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PCB coating technique

Once the type of coating is complete, the next thing to the most common methods. 

Dipping 

Dipping is a standard PCB coating technique/method for high-volume processing. Here, the circuit board gets immersed and then withdrawn from the coating solution. Dipping is practical when it is acceptable to coat both sides of the board. 

Brushing 

Brushing is a simple application technique that is commonly applied in rework and repair. Here, the coating gets applied using a brush to some specific areas of the board. While brushing happens to be low cost, it is a bit labor-intensive and a highly variable method. It is best suited for little production runs.

Manual Spraying 

Here, a coating is applied either by an aerosol or a handheld spray gun. This type of surface is usually used for or involved in low-volume manufacturing when capital is not sufficient. Sadly, manual spraying is time-consuming since areas that don’t need coating must require some masking first. 

Automated Spraying

Here, a programmed spray system moves the PCB on a conveyor under a spray that easily applies the layer. 

Selective Coating

Selective coating involves an automated coating process using programmable robotic spray nozzles that apply a coat to specific areas on the PCB. This type of surface is applicable in high-volume production and doesn’t require masking. 

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PCB Coating Selection Principles

Based on different processing properties and physiochemical properties, PCB coating must be selected based on several considerations. Some of the essential reviews include electrical performance, operating environment, and the layout of the PCB. In some cases, you may find that you have to meet specific transportation, military, or other industry standards. In short, the PCB coating must meet the demands highlighted below: 

  • Feature excellent flexibility
  • Must feature a long shelf time
  • Easy to spray and features low viscosity
  • Get curing at high speeds without the by-products generated
  • Reworkable
  • It should be low-cost and feature low-toxicity
  • Withstand a wide range of temperature changes
  • Able to protect the board from mechanical impact or either high or low temperatures 

Once you meet the above criteria, you can then decide on some of the relative merits of different coating products that will meet your needs. The way to approach the selection process is to begin with all your requirements first. 

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Why Choose WellPCB for Your PCB Coating?

PCB coating plays an essential role in protecting the electronic components that we use today. As electronic packages continue to become more complex and smaller, we at WellPCB will continue to deliver coatings that meet the industry’s needs. WellPCB provides world-class PCB coating services to aerospace, electronics, space exploration, and marine industries. 

WellPCB is an excellent choice for protecting your PCBs from exposure to extreme environments – be it human sweat, weather, and atmospheric conditions, among others. Electronic components must meet complex specifications to ensure reliability and trouble-free life regardless of the end-user. All combined, the benefits that WellPCB offers make it the ultimate PCB coating provider for electronic components and devices. 

At WellPCB, we offer a complete series of PCB coating to meet applicators’ protection requirements. We offer specific and commercial PCB coating, and we hold all our layers to some of the highest-performing standards. If you are in the market for reliable PCBs well coated, look no further than WellPCB. We have a reputation for excellence in the production, application, and education of using the best PCB coating systems.

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Conclusion

The electronics industry encompasses a wide range of applications that need printed circuit boards in hostile environments. Protecting or somewhat shielding the PCB is crucial, but protecting it with the right coating is essential. In current electronics, nothing beats reliability. Manufacturers globally expect failsafe conditions that come with long-term usage while ensuring that costs are kept low. A PCB coating enhances the protection of the board and better functionality. The pboard’s security is essential primarily when the board and its components operate under adverse conditions.

When selecting the coating type to use, it is necessary to consider aspects such as repair, rework, and environmental conditions, among others. In short, coated PCBs last long during their operation and have the ability to withstand instances of rough handling and thermal stresses. Coating printed circuit boards also protects them from cases of corrosion and contaminants. 

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Hommer Zhao
Hi, I'm Hommer Zhao, the founder and Chief Editor at WellPCB. With extensive experience in the PCB industry, I oversee all content to ensure it meets the highest standards of accuracy and insight. We proudly serve over 4,000 customers globally. For inquiries or more information, don't hesitate to reach out. Your satisfaction is my top priority!