When it comes to finding protective coatings for medical substrates, you have quite a few options at your disposal. These choices mainly depend upon your budget, production, and application requirements.
However, when you narrow down your search to high-performance coatings that come with exceptional features, it often leads you to a single material.
That answer comes in the form of parylene coating.
From healthcare experts to equipment manufacturers, everyone seems to sing praises of this protective coating for medical devices. While some are in awe of its long-term durability, others refer to its safety features as its most beneficial quality.
To help you understand why this polymer stands out as an optimal coating for medical substrates, here’s a lowdown on the material’s benefits in these applications.
Parylene is a Biocompatible Material That Doesn’t Harm the Recipient
The highly sought after polymer is completely biocompatible, which means that it doesn’t have any adverse effects on the recipient’s body. This holds whether the medical substrate is a surgical tool such as a stent or an implantable device such as a pacemaker.
This means that regardless of the duration the medical substrate is in contact with the recipient’s body, it remains free of any harmful effects. As a result, the conformal coating delivers optimal protection to the medical tool or device while also being safe for the patient.
This is one of the most valuable benefits of using the coating on medical substrates. But it’s not the only thing that makes the polymer such an ideal fit for these applications.
The Coating Protects Against Constant Exposure to Fluids
One of the primary purposes of putting a coating on medical substrates is to protect these devices from exposure to fluids. A parylene coating fulfills this requirement in an optimal fashion.
With its conformal properties, the coating provides complete coverage against intricate structures and contours. Whereas, its hydrophobic feature delivers exceptional protection from external elements.
As a result, the polymer holds its own against medical lubricants and disinfectants that are applied to devices in the preparation stage. It also offers this safety against bodily fluids that come in contact with these substrates during actual usage.
This helps ensure the durability of the device and its components in question across different medical applications. This includes surgical tools and implantable devices alike.
The Polymer Has an Easy Installation Process
Despite being wholly conformal and optimally protective towards substrates, parylene coating doesn’t require extreme temperatures to be installed on medical devices. It also doesn’t need intricate processes such as intensive manual adjustments to coat a device fully.
This makes the polymer ideal for delicate medical devices that can’t sustain intensive installation conditions after their assembly. It also plays into the coating’s overall installation requirements and makes the process easier and faster than other alternatives.
As a result, the coating provides a simpler but more effective alternative to many other protective polymers that often fall short on actual performance. This aspect is highly important to manufacturers who want to produce devices with the optimal mix of long-term durability and immediate availability.
If you want to bring ideal functionality to your medical substrates, considering this polymer doesn’t disappoint. On the contrary, its overall performance fulfills your expectations without any problems.