Do Electronic Epoxy Encapsulant Potting Compounds Conduct Electricity?Electronic Adhesive Manufacturer
Do Electronic Epoxy Encapsulant Potting Compounds Conduct Electricity?
Potting compounds have become like the biggest deal in the electronics assembly industry. They are perfect for ensuring effective protection against environmental conditions, as well as providing high electrical insulation and mechanical strength.
Electronic epoxy encapsulant potting compounds are commonly applied across a broad class of electronics. They have also gained popularity across other industries, like aerospace, automotive, and other industries that employ the assembling of electronic components.
Are you itching to invest in electronic epoxy encapsulant potting compounds, but not sure what they are? If that is how you feel, then relax and read this post to the very end.
What They Are
Epoxy encapsulant potting compounds are protective solutions meant to protect electronic components through their lifespan, ensure protection where necessary, and at the same time offering other benefits like enhanced mechanical strength, electrical insulation, vibration and shock resistance, heat dissipation, chemical protection, corrosion protection, as well as environmental influences.
Potting compounds are meant to address a barrage of challenges that face the electronic assembly and manufacturing industry. In the next section, we will discuss why electronic epoxy encapsulant potting compounds are preferred to other sealant types in the industry.
Why Epoxy Encapsulant Potting Compounds Are Preferred to Other Sealants
There are a number of sealants that can be used to pot substances that have gaps or holes in them. Having said that, it has been discovered that electronic epoxy encapsulant potting compounds have unique features that make them better when it comes to potting electronic PCBs.
Quite a number of sealants are susceptible to moisture. And you do realize that moisture is bad for electronics. All sealants are bound to be non conductive. However, that property can be interrupted when moisture is allowed to settle on the seal.
This is where potting compounds for electronics have an upper hand. They are formulated to resist moisture, which will prevent any short circuiting from occurring. In addition, they are known for offering better chemical protection in sophisticated assemblies.
Another reason for preferring electronic epoxy encapsulant potting compounds to other sealants is that they are versatile. These potting compounds come in forms that make them versatile and comprehensive enough to address different problems.
In other words, they can be applied in other industries besides the electronics industry. You can rest assured that they will function optimally when used in any industry. That is how they are meant to be.
Differing Property and Features
It is important to point out that electronic epoxy encapsulant potting compounds are not stereotyped. Instead, they exist in different formulations. The different features and properties mean you can use them on a wide range of applications. So, it is up to you to look for a potting compound that has the feature and property good enough for your application.
With the various of formulations of potting compounds available, you can easily find one that works well for that application of yours.
Epoxy encapsulant potting compounds have the ability to deliver in temps not up to 180 degrees. The best epoxy potting compounds are designed to ensure the highest mechanical strength within that temperature range. This is what makes them extremely flexible in their applications.
For instance, they are commonly applied within the automotive industry and other industries that employ heavy machinery. Not only that, because they have also proven to be highly effective for electronics applications that are prone to challenging environmental conditions.
Constituents of Potting Compounds
Epoxy encapsulant potting compounds are made of distinct components. The components of such compounds are responsible for the way they behave. Epoxy potting compounds comprise a resin, filler, hardener, and an additive.
Resins are known to harden with treatment. They currently exist in various formulations, which can be used to address various needs. Hardeners are used to enforce polymerization with resins. The hardener reacts with the resin to form a new polymer compound with hardened properties. Fillers are included in the mix to provide a reasonable level of shock resistance for the new compound. Other properties like dielectric and CTE density are also ensured during this process. Finally, additives are added to complete the potting compound. There are several types of additives, and you can use any amount of additive depending on what you hope to achieve.
Expectations from The Best Potting Compounds
Perhaps, you now understand what potting compounds are, but not sure what to expect from them. Epoxy encapsulant potting compounds are designed to offer the best performance, even when they are faced with extremely challenging conditions. They still do well regardless.
They should be considered suitable for a wide range of applications. Any application that requires flexible and robust protection should work fine with potting compounds. It should be able to guarantee protection for PCBs and electrical devices.
Industries like automotive and aerospace where high thermal conductivity is required are some of the applications that can do with potting compounds. In such applications, the operation temp is usually pushed to high limits, where the operation of the device is expected to be uninterrupted. You need the best electronic epoxy encapsulant potting compounds to ensure such operations.
Epoxy encapsulant potting compounds have turned out as the perfect solution for electronic assembly. They are transforming the industry as far as we know. They offer mechanical, flexible, and robust protection for cabling and delicate components. Potting compounds need high-quality materials that can outlast harsh conditions of different types.
Electronic epoxy encapsulant potting compounds are not designed to conduct electricity. That has been detailed in this article. We also looked at the various properties and features that make potting compounds appropriate for various applications, particularly in the electronics industry. The main reason they are used is to provide various forms of protection on PCBs. The more applications a potting compound can be used, the better for you. Go for those that can be used in more than one industry. Take your electronics applications to another level with the right potting compounds.
For more about electronic epoxy encapsulant potting compounds conduct electricity,you can pay a visit to DeepMaterial at https://www.electronicadhesive.com/potting-and-encapsulation/ for more info.