Enhanced TDS
Knowde-enriched technical product data sheet
Identification & Functionality
- Chemical Family
- CASE Ingredients Functions
- Technologies
- Product Families
Features & Benefits
Applications & Uses
- Markets
- Applications
- Application Method
- Compatible Substrates & Surfaces
- Coating Type
- Applications
- Screen Printing
- Strippable Coatings
- Pad Printing
- Plastic Coatings
- Transfer Printing
- Adhesives
- Printing inks
- Paper and film coatings
- Protective and masonry paints
- Strippable lacquers
- Application Details
Processing
- VINNOLĀ® H 11/59 is generally used in dissolved form.
- Ketones and esters are the solvents most commonly used for VINNOLĀ® H 11/59, ketones being more efficient than esters. Of the chlorinated hydrocarbons, methylene chloride and 1,2-dichloroethane are true solvents, while tri- and tetrachloroethene have only a swelling effect. Alcohols and aliphatic hydrocarbons do not dissolve VINNOLĀ® H 11/59. Aromatic hydrocarbons may be combined to a limited extent with true solvents.
- VINNOLĀ® H 11/59 can be plasticized with monomeric and polymeric plasticizers, such as phthalates, adipates, sebacates, citrates, phosphates, epoxides and chlorinated paraffins.
- VINNOLĀ® H 11/59 is fully compatible with all other VINNOLĀ® surface coating resins. It also combines well with many acrylic polymers and ketone resins, as well as with some epoxides. Alkyd resins, nitrocellulose, polyvinyl acetates and polyvinyl butyrals are in general incompatible with VINNOLĀ® H 11/59. We recommend always checking the compatibility of VINNOLĀ® H 11/59 with the polymer in question.
- VINNOLĀ® H 11/59 shows good compatibility with pigments routinely used in the coatings industry. Care must be taken when using pigments containing zinc or cadmium because these catalyze the decomposition of VC copolymers at elevated temperatures. The same applies to iron-oxide pigments.
- Despite good inherent stability, it is necessary for some applications to stabilize coatings based on VINNOLĀ® H 11/59 against heat and/or UV light. Epoxy compounds often suffice to stabilize these coatings against low thermal impact. Where higher temperatures are involved, it is advisable to use calcium/zinc or organotin stabilizers. Outdoor applications require the additional use of UV stabilizers along with thermal stabilizers optimized for these conditions.
- To avoid risk of discoloration, contact with iron should be avoided both during preparation of the solution and during subsequent storage of the product. VINNOLĀ®-based surface-coating resins should be stored in coated containers.
Properties
- Physical Form
- Typical Properties
Value Units Test Method / Conditions Bulk Density approx. 700 kg/mĀ³ DIN EN ISO 60 Density 1.37 g/cmĀ³ DIN 66137-2 Efflux Time (for 6mm, 20% in MEK) 70 seconds DIN EN ISO 2431 Glass Transition Temperature approx. 75 Ā°C DSC (DIN 53765 / ISO 11357-5) Molecular Weight (Mw) 80000 - 120000 g/mol SEC, PS-Standard Particle Size max. 1.0 mm Specific method - Specifications
Value Units Test Method / Conditions Chlorine Content 49.9 - 51.1 wt % Specific method Dynamic Viscosity (at 20Ā°C, 20% in MEK) 350 - 550 mPaĀ·s DIN 53015 K-Value 58 - 60 - DIN EN ISO 1628-2 Volatile Content max. 1.0 wt % Specific method - Properties
- VINNOLĀ® H 11/59 is a thermoplastic, physically drying binder that forms a film when the solvent contained in the formulation has evaporated.
- Like all VC copolymers, VINNOLĀ® H 11/59 is extremely tough, showing permanent flexibility, abrasion resistance, little tendency to swell in the presence of water and low gas permeability. It is also highly resistant to oil, grease, dilute aqueous acids, alkalis and saline solutions, as well as to aliphatic hydrocarbons, such as white spirit, and alcohols.
Packaging & Availability
- Country Availability
- Packaging Type
- Regional Availability
- Packaging Information
VINNOLĀ® H 11/59 is packed in 25 kg, coated three-ply paper bags containing a polyethylene liner.
Storage & Handling
- Shelf Life
- 12 Months
- Storage Information
Store VINNOLĀ® H 11/59 under dry conditions and at room temperature (below 25 Ā°C). Under these conditions, the product has a shelf life of at least 12 months, from the delivery date. If the material is kept beyond the recommended shelf life, it is not necessarily unusable, but the user should perform a quality control on the properties relevant to the application.