Special coatings & applications

Customized solutions for unique operating requirements

Industrial components coating solutions | Ionbond
Vacuum Semiconductor

Coatings for special applications

Apart from mainstream coating applications, Ionbond offers customized solutions for unique operating requirements. These solutions are typically a product of the extensive development in response to a particular customer or market need. Our engineers do not shy away from challenging tasks and strive to find solutions in many situations when standard approaches are not applicable. These developments are carried out in our competence centers in Europe, the US and Asia and employ PVD, CVD and PACVD technologies.

Coatings Dry Environement TB55 Friction Graph

Dry environment

In dry environments, such as dry gas or vacuum, regular DLC coatings such as Tribobond™ 41/42/43 exhibit high friction and wear rates. Responding to the need to provide protection in such conditions, Ionbond developed the Tribobond™ 55 coating, specifically designed to overcome this limitation. This was achieved by modifying the structure and composition of the functional DLC layer.

This customized layer maintains an extremely low coefficient of friction in most dry and vacuum environments, thus helping to reduce wear and energy losses related to friction. The Tribobond™ 55 coating is typically used on wear components of high-vacuum systems, as well as tribological applications running in dry gas environments.

CVD Coating Technology

Inner surfaces coating

One of the limitations of physical and plasma-assisted chemical vapor deposition (PVD and PACVD) technologies is their inability to deposit coatings into inner surfaces, like holes and cavities with a high aspect ratio. Chemical vapor deposition (CVD) technology, however, allows coating of inner surfaces of virtually unlimited length and aspect ratio. This is achieved by management of reactive gas flows, a technique mastered by Ionbond engineers on many different products. High-quality coatings such as TiN, TiCN, ZrN or Al2O3 can be produced on inner diameters of various geometry, size and length.

The CVD process is especially friendly for austenitic (300 series) steels, which are unaffected by high temperature of the deposition process. Other materials may or may not need an additional heat treatment after processing, depending on the application requirements and their composition. Ionbond engineers have developed several solutions for successful protection of IDs against wear and corrosion with CVD-produced coatings.

Coatings for jet engine components

Corrosion protection

Conventional physical and chemical vapor deposition (PVD and CVD) coatings offer only marginal improvements in corrosion resistance. This is primarily due to the coating structure, which allows interaction of the corrosive medium with the substrate through grain boundaries and other defects of the coating. Ionbond offers a number of possible solutions to improve corrosion performance of sensitive substrates.

Aluminum coatings: Aluminum coatings offer remarkable improvement in corrosion resistance. The coating acts as a sacrificial anode in galvanic corrosion, thus protecting the substrate. Ion vapor deposition (IVD) is a common method of producing such a film. Ionbond engineers have developed an alternative technique to produce Al coatings using cathodic arc or sputtering PVD techniques. The aluminum coatings produced by PVD methods fully meet strict US defense specifications (MIL-SPEC) and offer some performance advantages compared to coatings deposited by other methods.

Silicon oxide PACVD films: Another effective solution for corrosion protection is a PACVD silicon oxide film. These films are ideal for forming a completely sealed surface, effectively preventing the corrosive medium from interacting with the substrate. The SiOx coatings are produced using a pure PACVD process, thus avoiding an undesirable structure of the film. These coatings have demonstrated corrosion-free performance for up to 500 hours of the salt spray test. Unlike aluminum coatings, SiOx films have high hardness, offering some wear protection. They can be produced as a top layer on regular Tribobond™ films.

DLC Coating Technology

Tuned DLC coatings

The unique nature of diamond-like carbon (DLC) coatings allows engineers to tune their properties to suit a particular application. This is  achieved either by modification of the deposition process  or by doping the DLC film with certain elements. Ionbond engineers have developed customized DLC coatings for a variety of special applications, such as:

  • films with a specific resistivity/conductivity range
  • films with modified surface energy to achieve better hydrophobic properties
  • films for non-conductive substrates, like glass or ceramics
  • films suitable for certain plastic substrates

Are you interested in a different application? The Ionbond engineering team is constantly working on expanding the application range of DLC coatings and is always open to discuss custom applications.

Questions?

Discuss your challenges with Val Lieberman

Dr. Val Lieberman, Global Segment Manager Industrial Components, will be glad to support you.

We will get back to you as soon as possible.

Val Lieberman

Dr. Val Lieberman

Global Segment Manager Industrial Components