Cirrus Performance Solutions

Cirrus provides applied functional surface technologies to help clients solve challenging technical problems.

Cirrus provides applied functional surface technologies to help clients solve challenging technical problems.

For 3D-printed part manufacturers looking for a sustainable, cost effective and customizable finish, Cirrus enables a simple, in-house solution.

The Cirrus CPα system aims to provide an in-house, end of line product finishing solution that provides a simple platform to deliver surface finishing for additive manufacturing.

Aerospace & Defence applications

Highly durable, wear-resistant surface solutions for extreme environment protection.

Cirrus Dopant™ is a patented library of more than 20 non-toxic particles which enhance an array of plated coatings.  Cirrus technology stabilises pre-cursor particles from a drop in additive, which then deposit as particles and create nano-reinforcement.

Cirrus Hybrid™ is a patented family of coating systems for light metal alloy components, specifically aluminium, magnesium, and titanium, that is 75% thinner, lighter and 5x more energy efficient to apply than competing systems.

Consumer Electronics

Substitute expensive inputs with sustainable, high performance, nano-composite coatings.

For strengthening your existing coatings with nanoparticles: Cirrus Dopant™ includes a nanoparticle library of more than 20 patented, non-toxic additives for a variety of electrodeposited, autocatalytic and immersion coatings. We are the only firm world-wide that can stabilize nanoparticles in an electrolyte with a simple drop-in additive.  Cirrus Dopant™ technology allows us to design and deliver nano-reinforcement into a coating that can improve targeted properties by up to 900%.   Cirrus’ unique dopants contain proto-particles and create uniquely structured nano-inclusions in surfaces, which we can detect in the final coating.

For protecting light metal alloy components: Cirrus Hybrid™ is a patented family of coating systems for light metal alloy and 3D- printed components, specifically aluminium, magnesium, and titanium, that is 75% thinner, lighter and 5x more energy efficient to apply than competing systems.

We're ready to put you ahead of the competition. Are you?