Product Testing

Cieffe31 constantly performs effectiveness tests on various surfaces, in order to improve the performance of its products and thus allow the improvement of the protection of materials over time. In this way important information is obtained for new formulations of molecules able to increase the specific characteristics of resistance and protection of surfaces such as:

  • Resistance to chemical agents;
  • Resistance to high temperatures;
  • Increased surface hardness of the substrates;
  • Protection against oxidation;
  • Corrosion protection,
  • Protection against color changes;
  • Protection against premature aging;
  • Anti-graffiti protection;
  • Anti-soiling protection;
  • The reduction of the bacteriological charge of the surfaces;
  • Scratch and abrasion resistance;
  • The modification of the surface structure of the materials, to which a hydrophobic or hydrophilic property is conferred, according to the required characteristics, with the aim of keeping them cleaner over time and reducing the costs for their maintenance.

AVF treatment on a John Deere tractor

Use of AVF nanotechnology on agricultural machinery. The purpose of the treatment is to make it easier to clean the equipment and to prevent the corrosion action of the nitrogen contained in animal slurry and manure, thus protecting painted and glazed surfaces of the machinery over time.

Anti-adhesion treatment using nanotechnology

The treatment aims to facilitate the cleaning of the surfaces encrusted by the
cooking food at high temperatures and the grill function.

Surface treatment of ceramic material using nanotechnology

The treatment has shown excellent anti-scratch and anti-stain properties.
Furthermore it is:

  • resistant to chemical and atmospheric agents;
  • resistant to high temperatures;
  • gives surfaces a marked hydrophobic property;
  • it is not removed with normal solvents and detergents (it is permanent)
  • remains unchanged over time
  • does not require maintenance
  • increases the surface hardness of the substrate

METAL SURFACE TREATMENT WITH USE OF NITROGEN

The use of preheated nitrogen is particularly indicated in the application of nanotechnology on metals. Its fluidifying effect allows obtaining a superfine nanometer layer and eliminates any residual moisture from the substrate.

AVF treatment on a John Deere tractor

Use of AVF nanotechnology on agricultural machinery. The purpose of the treatment is to make it easier to clean the equipment and to prevent the corrosion action of the nitrogen contained in animal slurry and manure, thus protecting painted and glazed surfaces of the machinery over time.

Anti-adhesion treatment using nanotechnology

The treatment aims to facilitate the cleaning of the surfaces encrusted by the
cooking food at high temperatures and the grill function.

Surface treatment of ceramic material using nanotechnology

The treatment has shown excellent anti-scratch and anti-stain properties.
Furthermore it is:

  • resistant to chemical and atmospheric agents;
  • resistant to high temperatures;
  • gives surfaces a marked hydrophobic property;
  • it is not removed with normal solvents and detergents (it is permanent)
  • remains unchanged over time
  • does not require maintenance
  • increases the surface hardness of the substrate

METAL SURFACE TREATMENT WITH USE OF NITROGEN

The use of preheated nitrogen is particularly indicated in the application of nanotechnology on metals. Its fluidifying effect allows obtaining a superfine nanometer layer and eliminates any residual moisture from the substrate.