TeflonCoat
TeflonCoat is a type of fluoropolymer coating that provides excellent sliding and abrasion properties. Thanks to the TempCoat infusion method, it achieves particularly good adhesion to the base material (substrate).
TempCoat offers exceptional sliding and abrasion properties
The TempCoat method provides top-quality coatings with fluoropolymer. It offers exceptional sliding and abrasion properties, and the infusion method ensures particularly strong adhesion to the base material (substrate).
A TempCoat coating can be applied to parts made of aluminum, steel, stainless steel, and ceramics, as well as, under certain conditions, copper and certain types of plastics. It is especially suitable when both good wear resistance and excellent sliding or abrasion properties are required.
Technical data for TempCoat:
- Layer thickness: 7 µm to 70 µm
- Temperature range: -40°C to +260°C
- Surface smoothness (Ra): Up to approximately 1.5 µm
- FDA Approval: Yes, for certain types of coatings
Delta MKS is developed for sealing systems
Delta MKS is a zinc flake coating method that can be applied using centrifuging/dip spin, immersion, or fully automated wet coatings.
This top-class corrosion protection is free of hexavalent chromium, and the zinc flakes provide a cathodic protective effect. There is no hydrogen embrittlement, which is known to occur with galvanically applied zinc layers.
This corrosion protection also has good sliding and abrasion properties, and it is specifically developed for sealing systems. Additionally, the method has some decorative properties, making it popular in the automotive industry.
Technical data for Delta MKS:
- Layer Thickness: 5 µm to 30 µm (depending on layer structure)
MagnaCoat provides effective protection against chemicals
A MagnaCoat coating has an almost pore-free surface, consisting of fluoropolymer systems in very thick layers. It has high electrical breakdown resistance, which remains effective even at high temperatures. It also provides an effective barrier against chemicals.
The method offers excellent corrosion protection and is suitable for materials based on aluminum, steel, stainless steel, and other metals.
Technical data for MagnaCoat:
- Layer Thickness: 100 µm to 800 µm
- Temperature Range: -40°C to +260°C
- Surface Smoothness (Ra): Up to approximately 1.5 µm
- FDA approval: Yes, for certain types of coatings
PlasmaCoat provides high wear protection and good non-stick properties
The thermally sprayed metal layers combine effective hardness and wear protection properties with the polymer’s excellent release and sliding characteristics. PlasmaCoat is therefore ideal for parts that require high wear resistance along with good non-stick properties. The external structure of PlasmaCoat provides a good grip and excellent handling characteristics. PlasmaCoat offers a range of friction levels from low to high, depending on the type of PlasmaCoat chosen.
PlasmaCoat is used, for example, on laminating, printing, and cooling rollers. Hot melt adhesive, tape, labels, and other sticky materials do not adhere to the surface.
PlasmaCoat can be applied to parts made of aluminum, steel, special metals, and synthetic materials.
Technical data for PlasmaCoat:
- Layer thickness: 30-295 µm
- Temperature range: -40°C to +220°C
- Surface roughness (Ra): < 3.0 µm
- Hardness: 28-70 HRc
- FDA approval: Yes, for certain types of coatings