Superfinish polishing compositions

Being used in nanoelectrionics, enable getting impeccable flawless surfaces and unstrained near-surfaces layers with microrelief characteristics at the level of 0,5-1,5 nm semiconductive materials of different hardness and diamond, sapphire, leucosapphire, garnet, fluorite, tungsten substrates.

Galvanic coatings

(Cr, Ni, Zn, Ag, Au)

In galvanic processes, nanoadditives facilitate forming of pore-free corrosion-resistant, wear-rasistant nanostructure coatings.

Super-wear-resistant corrosion-proof aluminum and

 titanium alloys` coatings

Anodic-arc microplasma oxidation and subsequent special processing (micro-hardness HV > 2500, unlubricated friction coefficient K_f < 0,003).

Polymeric composites:

epoxide, polyether, polyamide, polyurethane, rubber resin, ect.

Nanoadditives enable the following properties amplification: hardness, wear-resistance, adhesion to metal, upgrade stress-strain properties and in a number of cases ensure unique tribotechnical characteristics, improve hydrophobic properties, reduce water absorption.

As a component of adhesive compositions, nanoadditives provide 2-3-fold increase in hardness.

Being used as a fluoroplasts component, enables 3-5-fold decrease in friction coefficient, increase hardness by 80-120 per cent, which 2-10-extends the service life of friction units.

Corrosions-resistant and bactericidal paint-and-lacquer coatings

Water-based, powder, acrylic lacquers and paints with nanoagents are characterized by enhanced wear-resistance, corrosions-resistance, adhesion to metal and improved bactericidal properties.

Motor, transmission, hydraulic, insulating oils and grease lubricants

Are characterized by elevated adhesion, wettability of wear surfaces, increased heat-absorption capacity and melting point; reduce friction coefficient and improve wear-resistance characteristics.