SOLID S2 50ml
SOLID S2 – A NEW COATING DEVELOP FOR HIGH HEAT RESISTANT
S2 is a unique Silicone Resin that cures at ambient temperature. S2 reacts rapidly through hydrolysis and condensation to become a solid silicone resin with super hardness. It will
not coating soften when heated anymore.
S2 silicone resin is about 25 μm (micrometer) where Si02 is only 1nm (nanometer) in layer thickness.. A nanometer is 1000 (One Thousand) times smaller than micrometer.
This Silicone resin we use can withstand nearly 200celcius in heat when exposed. This ability is special for the purpose of possibility of water spot occurring.
It’s water angle is at 150 degrees angle ensures of easier rolling of a drop of water from the surface. Therefore, it is Superhydrophobic material. High water repellent as well and reduces sedimentation tendency. It is extremely durable.
The other part of S2 is a Siloxane, having organofunctional groups in a,
w-function – (Omega position). With this w-functionalization each polymer chain would have two organofunctional groups.
The typical properties of Siloxane is :
- Low surface tension
- High chemical stability
- excellent high – low temperature stability
These are the following main characters for SOLID S2 in summary:
- Low VOC
- Ambient Curing
- High heat Resistance
- Extreme water spot resistance
With the above characteristics, SOLID S2 produces the following effects:
Superoleophobic
Superoleophobic simply means it is a phenomenon where the contact angles of various water or oil droplets with low surface tension on a solid surface are larger than 150°.
Superhydrophobic
Superhydrophobic or Ultrahydrophobic surfaces are highly hydrophobic which is extremely difficult to cause a wet surface. The contact angles of a water droplet on an ultrahydrophobic material exceeding 150°. This is also with reference to as the lotus effect, after the superhydrophobic leaves of the lotus plant.
Superamphiphobicity
Superamphiphobicity is an effect where the roughness of a surface and a surface chemistry combined to generate both superhydrophobic and superoleophobic, which is contact angles (θCA) greater than 150° together with low contact angle hysteresis (CAH) not only towards probing water but also for low-surface-tension surface.