VINNOL®
For over 60 years, VINNOL® surface coating resins have been valued as competent specialists in many applications.
WACKER markets vinyl chloride co- and terpolymers in the form of dispersions and solid resins under the VINNOL® trade name.
Delivery Forms
- Dispersion (liquid)
- Solid resins (powder)
VINNOL® Dispersions
VINNOL® is used to render textile fabrics flame resistant.
VINNOL® dispersions are used as binders in the manufacture of nonwovens and in textile coating. Special ethylene-vinyl chloride grades are available under the brand name VINNOL® EVCL, specifically for these applications. Specific properties take the main role, depending on the field of application.
Advantages in Textile Applications
- Good flame resistance
- Excellent bonding to textiles
- High abrasion resistance
VINNOL® Solid Resins
VINNOL® allows the seal-bond strength, e.g. In blister packs, to be precisely matched to the application.
Thanks to their outstanding adhesion profile, VINNOL® solid resins are used in, for example, heat-sealing lacquers, printing inks and industrial coatings. The highly developed product portfolio is based on over 60 years’ experience with a broad spectrum of different, completely mutually compatible polymer resins. It is therefore possible to modify the properties of heat-sealing lacquers, printing inks and coatings precisely to requirements.
- Very good adhesion to various metals and plastics
- Excellent water and chemical resistance
- Very good mechanical resistance
- Very good high and low-temperature resistance
- Broad formulation range
- Odorless and tasteless
Application Areas
- Heat-sealable coatings
- Printing inks
- Industrial coatings
Product Recommendations
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Products
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Technical data
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| Solids content | Viscosity, dynamic | Supply form | Glass transition temperature | ||
| 49 - 51 % 49 - 51 % | 40 - 100 mPa·s 40 - 100 mPa·s | - - | approx. 36 °C[1] approx. 96.8 °F[1] | ||
| - - | - - | white granulate with some powder[3] white granulate with some powder[3] | approx. 69 °C[2] approx. 156.2 °F[2] | ||
| - - | - - | white granulate with some powder[3] white granulate with some powder[3] | approx. 75 °C[2] approx. 167 °F[2] | ||
| - - | - - | white granulate with some powder[3] white granulate with some powder[3] | approx. 73 °C[2] approx. 163.4 °F[2] | ||
| - - | - - | white granulate with some powder[3] white granulate with some powder[3] | approx. 69 °C[2] approx. 156.2 °F[2] | ||
| - - | - - | white granulate with some powder[3] white granulate with some powder[3] | approx. 70 °C[2] approx. 158 °F[2] | ||
| - - | - - | white granulate with some powder[3] white granulate with some powder[3] | approx. 61 °C[2] approx. 141.8 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 75 °C[2] approx. 167 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 69 °C[2] approx. 156.2 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 70 °C[2] approx. 158 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 74 °C[2] approx. 165.2 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 74 °C[2] approx. 165.2 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 74 °C[2] approx. 165.2 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 74 °C[2] approx. 165.2 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 65 °C[2] approx. 149 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 58 °C[2] approx. 136.4 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 60 °C[2] approx. 140 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 60 °C[2] approx. 140 °F[2] | ||
| - - | - - | white powder[3] white powder[3] | approx. 62 °C[2] approx. 143.6 °F[2] | ||
[1] Glass transition temperature DSC | specific method, [2] Glass transition temperature | DSC (DIN 53765 / ISO 11357-5), [3] Supply form | Visual
