Parylene coatings are known for robust protection from liquids, corrosion, chemicals, and strong electrical activity at a fraction of the thickness of alternative coatings, such as acrylics, epoxies, silicones, and urethanes. Additionally, Parylene is biocompatible, with beneficial optical properties, and delivers superior protection at 50% thickness of conventional coatings, such as acrylic conformal coating or epoxy. But, Parylene dimer and labor can be costly. So, design teams may hesitate to use them for high-reliability protection.
Read about why engineers choose Parylene.
Many see Parylene coating as hard and costly to apply despite its proven performance. So, many assume it is suitable only for extreme, mission-critical situations. These include military, medical, and aviation applications.
These assumptions are unfounded. But Parylene coating is the most costly of all conformal coating options. So, choose a partner who can work within your budget. They should also help you estimate potential costs.
At HZO, we have crafted processes and procedures to cut the costs of Parylene coating. Yet, three factors are pertinent to the price regardless of whom you work with.
Common varieties, such as Parylene C and Parylene N, are less costly in raw coating material known as Parylene dimer. “Specialty types,” such as Parylene-AF4, will cost more but enable better UV and heat resistance. Consult HZO, a Parylene coating service, to find the best Parylene type for your project.
Masking can be more complex with Parylene coatings, resulting in increased labor. However, changing your product's design can reduce costs. It would make it easier to coat and mask. HZO has industry-leading automated and semi-automated masking and demasking equipment. Working with us simplifies the process and cuts costs.
With Parylene, the objects you need to coat are placed into a vacuum chamber as part of the chemical vapor deposition (CVD) coating process. Each coating run will have a fixed cost. But, you can optimize the number of components coated in each run to lower the coating cost per item. (Meanwhile, HZO has built proprietary coating equipment that can house more items at once per run than any other Parylene company. This minimizes costs per run.)
Aside from considering upfront costs, to accurately assess Parylene’s coating expense, you must consider the coating’s value in terms of performance to preserve product function over time. In other words, the total cost of ownership is a critical consideration – upfront coating expense cannot fully measure value over a product’s life cycle. Parylene’s superior conformality and protection capabilities dramatically reduce field failures, warranty costs, and downtimes.
When you take the long-term view, the productivity and warranty savings that Parylene provides over time can make it the most economical coating option. There are other savings to consider when evaluating the price of conformal coatings, such as manufacturing costs. Conventional coatings entail cure cycles, VOC emissions, toxic byproducts, flammability, waste disposal, and health concerns. Parylene does not raise these safety and sustainability concerns as an environmentally friendly process.
Finally, investing in Parylene, with its exceptional dielectric strength, chemical and moisture resistance, and stress-free encapsulation, can substantially reduce the TCO to ruggedize components compared to other options.
Want to ensure HZO Parylene meets your specifications?
If you want to evaluate Parylene coatings, contact our experts. They will provide a free DFM consultation.