Process of Ion Beam Deposition

Ion Beam deposition, or IBD, is the process that makes the application of a slew of coatings possible on a number of surfaces and materials possible. The operation is precise and offers enhanced uniformity so it’s the go-to choice for many companies.

Importance of the process
The process allows deposition or the application of coatings that possess metallurgical properties and allows sufficient and ideal control over the structure of the material. This makes it easy to achieve adhesion without the added application of heat.

The Ion beam deposition device
Ion Beam deposition works in low pressure environments, typically less than the standard magnetron sputtering. An IBD device entails the following parts: an ion source along with an ion optics system and the deposition target.

How the process works
Then an ion source material, usually in gas or evaporated solid form—it can even be in liquid solution—is ionized. This results in accelerated ion movement and are focused or deflected away from given points with the use of magnetic fields. High voltages are also effective in producing the same effect. And with the use of low energy, the ion beams are deposited, intact, onto a surface. That results in a number of coating solutions.

Where to get help
This is how the process results in highly precise applications of coatings on several given surfaces. So if you’re looking for coating solutions for a number of applications—medical, aerospace and even automotive or industrial, then make sure you consider coating providers that use IBD to achieve ideal coating solutions, says N2 Biomedical.

With help from trusted coating providers, finding a reliable provider that uses IBD to ensure coatings are durable, highly resistant to wear and meet safety standards are easier and much, much simpler and convenient to manage.

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