Knowde Enhanced TDS
Identification & Functionality
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- CASE Ingredients Functions
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- Plastics & Elastomers Functions
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- Product Background
- In the past, adhesion promoters have typically been based on titanium and Borica’s current range of titanates strongly improve the adhesion of printing inks to flexible and metal packaging films, while enabling them to withstand heat sealing, freezer storage, abrasive handling, solvents, acids, greases during printing, packaging, storage and handling by consumers.
- However, there has been a growing use of Zirconium Propionate (ZPP) in both flexographic and gravure inks, where adhesion to difficult substrates has not been easily achieve with titanates.
- It is claimed that ZPP offers advantages over the titanates with regards to improved adhesion and resistance to yellowing, especially in inks based on cellulose acetate based polymers (CAB/CAP).
- The mechanism for adhesion and crosslinking performance is similar to that used by the titanates. However, ZPP is renowned for having a strong smell and is supplied in solid form and requires dissolution in solvent.
- Borica has now developed a proprietary technology platform that provides a very cost effective zirconium based product that delivers excellent adhesion and ink stability performance without the handling issues of ZPP.
- This technology platform will allow for a range of zirconium and titanium products to be launched which will provide significant benefits to the ink formulator. Our first product is TYTANTM AP910. TYTANTM AP910 is citrate zirconium that can be formulated as an adhesion promoter for printing inks, crosslinker for paints as well as a catalyst for esterification. It is listed in Swiss Ordinance therefore it’s applicable for food contact application!
Features & Benefits
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Applications & Uses
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Properties
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Technical Details & Test Data
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Due to its proprietary chelated structure, Tytan AP910 shows delayed reaction at ambient temperature and thus facilitates storage stability of inks. Compared with organo-titanate adhesion promoters, it shows good compatibility with PVB, CAB and CAP inks and provides minimal discoloration during the sterilizing process in the printing of milk pouches. As the temperature increases above 60°C, the zirconate can interact with functional groups such as -OH, -COOH, -NH2 in the polymer or substrate that have been provided through corona discharge. This crosslinking provides improved adhesion and further crosslinking with similar functional groups within the resin, provide improved resistance properties.
To demonstrate these benefits, TYTANTM AP910 has been evaluated with TYTANTM TAA, AP100 and a competitive ZPP at 2.5% loading in the following standard ink formulation Further to Tytan AP910, Tytan PAP910 is also on shelf now. Tytan PAP910 is a polymeric citrate zirconium adhesion promoter. It provides exceptional adhesion performance as Tytan AP910. Most importantly, due to its polymeric nature, no migration test is needed when involving Tytan PAP910 to your new ink formulation.
Adhesion performance on OPP film:
Adhesion profile on OPP film:
Wet crinkle resistance on OPP film:
Packaging & Availability
- Regional Availability