Dynasylan® SIVO 160 is a water-borne sol-gel system which does not contain organic solvents. It does not release alcohols upon hydrolysis, contrary to standard functional alkoxysilanes. Dynasylan® SIVO 160 has a highly branched structure and contains a high concentration of active silanol groups. Therefore it can chemically bond to surfaces of suitable substrates and achieves a high degree of crosslinking by formation of 2- and 3- dimensional siloxane networks. Due to the high crosslinking density, an exceptional hardness can be achieved. On smooth surfaces, a layer thickness of more than 1 µm results in a brittle coating and should be avoided. On rough substrates thicker layers are possible without brittleness. If a higher layer thickness is necessary, formulations of Dynasylan® SIVO 160 with other sol-gel systems such as Dynasylan® SIVO 110, polymers, or polymer dispersions can be made.
Suitable substrates: stainless steel, HDG steel, Zn-galvanized steel, aluminum, magnesium, glass, ceramics.
The final curing temperature of Dynasylan® SIVO 160 depends on substrate and possibly the top-coat if the product is used as primer. In some cases Dynasylan® SIVO 160 based formulations can be dried at room temperature. In combination with a top-coat, a curing temperature of 60 to 80 °C is recommended for the final cure.
Typical Applications
Because of its bi-functional nature Dynasylan® SIVO 160 finds its use as an additive to formulate primers and wash-coats as conversion layers, sealers or adhesion promotion primers on metal, glass, or ceramic surfaces.
The product binds strongly to the metal through the reactive silanol groups of the molecule while being able to interact with a great variety of organic resins with its organofunctional groups. The performance of Dynasylan® 160 can be optimized by special formulations with other water-borne sol-gel systems or additives.
The molecular weight of the molecule has been especially tailored for optimized wetting properties, thus a homogeneous surface layer is formed on the substrate.
Dynasylan® SIVO 160 is a base resin/primer and often needs to be formulated for optimized performance in different applications methods and large scale processes.
Dynasylan® SIVO 160 containing formulations can be sprayed, dipped, or applied with a doctor blade. The layer thickness depends on the formulation, the application and has to be evaluated.
The following examples show the potential of Dynasylan® SIVO 160 which was used without further optimization.
Dynasylan® SIVO 160 is predominantly suited as a binder or additive for low temperature curing (20 to 80 °C) sol-gel and sol-gel-based hybrid coatings.
Dynasylan® SIVO 160 is a polymeric silane with reactive groups. Due to its high degree of polymerization and its high reactivity it has the following advantages:
- Water-borne
- Low VOC (volatile organic content)
- Heavy-metal and fluoride free
- Forms very thin, highly crosslinked layers (< 1 µm)
- Resistant against boiling water and alkaline aqueous solutions
- Thermally stable up to 220 °C
Benefits at a glance
As part of the SIVO® SOL Technology, Dynasylan® SIVO 160 can be formulated other components of this technology. For instance, the addition of Dynasylan® SIVO 160 to the inorganic binder Dynasylan® SIVO 110 results in mixed inorganic binder formulations allows for the formulation of thicker coatings that cure at lower temperatures than Dynasylan® SIVO 110 alone.
Dynasylan® SIVO 160 is not stable in formulations which contain fluoride. Dynasylan® SIVO 160 must be protected against freezing temperatures.
Due to the high reactivity of Dynasylan® SIVO 160 droplets of the product at the top of the packaging (PE pails or steel drums with PE-inliner) can react when the water of the droplet evaporates and small gel particles are formed. Therefore, a simple filtration before the application or formulation of Dynasylan® SIVO 160 is recommended.
Product Details
Technical Data Sheets
Further Information
Storage:
Dynasylan® SIVO 160 has a flash point > 93°C and can be stored and transported advantageously according to different local requirements, compared to flammable liquids (Category 2, 3 and 4), as the most established monomeric alkoxysilane materials are.