adhesion

  • Tytan AQ33 is used as an esterification and transesterification catalyst for the manufacture of unsaturated polyester, polyester, PET, PTT and PBT when water content is higher. Tytan AQ33 can also be used as adhesion promoter or cross linking agent for water based coating on various surface. Suggested dosage is 0.1 ~ 1% as catalyst and 0.5 ~ 5% as cross linking agent.
  • Tytan TNBZ is a very reactive primary zirconate that will hydrolyse immediately in contact with moisture. Tytan TNBZ is mainly used as catalyst for esterification, trans-esterification and olefin polymerization (Ziegler-Natta). Tytan TNBZ is very suitable as an adhesion promoting and cross-linking agent for hydroxylic compounds or heat and corrosion resistant coatings.
  • Tytan TNBZ is a very reactive primary zirconate that will hydrolyse immediately in contact with moisture. Tytan TNBZ is mainly used as catalyst for esterification, trans-esterification and olefin polymerization (Ziegler-Natta). Tytan TNBZ is very suitable as an adhesion promoting and cross-linking agent for hydroxylic compounds or heat and corrosion resistant coatings.
  • Tytan TAA is a titanium chelate of which the alkoxy groups can react with resins to promote adhesion and/or cross-linking while the chelating agents stabilize the molecule. Tytan TAA has an excellent balance between reactivity and cross-linking/adhesion-improvement properties which makes it also very suitable to strongly improve performance properties of industrial coatings on difficult modern polymeric substrates, glass and some metals. Tytan TAA can only be used in solvent based inks and coatings.
  • Tytan AP100 is a Titanium Phosphate Complex of which the alkoxy groups can react with resins to promote adhesion and/or cross-linking while the chelating agents stabilize the molecule. Tytan AP100 is mainly designed to strongly increase adhesion of solvent based inks to a variety of plastics used for food packaging or other purposes. Tytan AP100 is transparent and therefore most suitable for modification of ink for very clear-colour and high-gloss printing. Tytan AP100 is low odour and applies to the most stringent contemporary legislation on registration of the ECB. Tytan AP100 can only be used in solvent based inks.
  • Tytan TIPT is a very reactive primary titanate that will hydrolyse immediately in contact with moisture. Tytan TIPT is mainly used as catalyst for esterification, trans-esterification and olefin polymerization. Tytan TIPT can also be used selectively as an adhesion promoting and cross-linking agent for hydroxylic compounds or heat and corrosion resistant coatings. Tytan TIPT is most suitable for use in the glass and glass fibre manufacturing. Tytan TIPT can only be used as an additive to solvent based products.
  • Test PCC Group item description
  • Tytan TNPT is used in a variety of industrial applications e.g. as an esterification and transesterification catalyst, as an olefin polymerisation catalyst, as an adhesion promoter, as a crosslinking agent for hydroxylic compounds and as a component of heat and corrosion resistant paints.
  • Tytan CA 2E is a formulated catalyst suitable for ethylene dimerization process for high purity 1-butene production. The liquid phase catalyst could avoid isomerization of 1-butene to 2-butene.
  • Tytan AP110 is modified from Tytan AP100, which is aiming for better compatibility with various ink formulations. Tytan AP110 is proved offering the same adhesion performance as Tytan AP100, in addition, preventing the viscosity changed during printing process.
  • Tytan AP910D is an ethyl citrate zirconium that can be used as an adhesion promoter for printing, crosslinker for paints and as a catalyst for esterification. Due to its chelated structure, Tytan AP910D 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 60oC, the zirconate can interact with functional groups such as -OH, -COOH, -NH2 in the polymer or substrate.