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  • Tetraethyl titanate or ET is a titanium alkoxide. Tytan ET 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.
  • Titanium Acetylacetonate. Improved corrosion resistance.
  • Tetra 2-etehylhexyl titanate, a titanium alkoxide. Used as a 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 CX400 is titanium chelate of alkanolamine titanate complex and developed as a rheology modifier for use in emulsion paints. Tytan CX400 reacts with colloid stabilized binders to impart thixotropic structure. Tytan CX400 is suitable for VOC free paint.
  • Tytan CX200 is a chelated Titanium Alkanolamine Complex developed as a rheology modifier for emulsion paints. Tytan CX200 reacts with colloid stabilized binders to impart a thixotropic structure to the paint through shear sensitive hydrogen bonding. Tytan CX200 has no to little effect on the rheology of emulsion paints based on surfactant stabilized binders. Tytan CX200 has improved compatibility with a broad range of paint formulations but it is still recommended that use of Tytan CX200 shall always be based on sample testing to evaluate potential interaction with other components or additives of the paint formulation.  
  • Tytan CX100 is a chelated Titanium Alkanolamine Complex developed as a rheology modifier for emulsion paints. Tytan CX100 reacts with colloid stabilized binders to impart a thixotropic structure to the paint through shear sensitive hydrogen bonding. Tytan CX100 has no to little effect on the rheology of emulsion paints based on surfactant stabilized binders. Use of Tytan CX100 shall always be based on sample testing to evaluate potential interaction with other components or additives of the paint formulation.
  • TYTAN Titanate Coupling & Dispersing Agents are molecular bridges at the interface between inorganic fillers (such as CaCO3, BaSO4, graphite, talc, carbon black, silica and metal oxides) and polymers (such as PP, PE, PVC, PBT, PET, ABS and rubbers). When incorporated into polymers, the coupling agent could improve filler loading, pigment dispersion, processability and composite mechanical properties to achieve the specification desired. As a comparison, silane coupling agents only reacts with hydroxyl groups on the filler surface via water condensation of silanol-siloxane process, therefore it is suitable for glass, alumina hydroxide, magnesium hydroxide etc. The advantage of titanate coupling agents is that they not only react with hydroxyls, but also the free protons on the inorganic interface, which results in the formation of organic monomolecular layers on the inorganic surface forming the bonding for polymers. Dosage is up to the property required and the filler type used is dependent on its surface area, the larger the surface area, the more Tytan titanate coupling & dispersing agent are needed. As a guide, the general dosage range is 0.2% ~ 2.0% by weight of filler.
  • TYTANTM Titanate Coupling & Dispersing Agent Titanate Coupling Agents are molecular bridges at the interface between inorganic filler such as CaCO3, BaSO4, graphite, carbon black, silica and metal oxide with polymer such as PP, PE, PVC, PBT, PET, ABS and rubbers. When incorporated into polymer systems, the coupling agent could improve filler loading, pigment dispersion, impact strength hence reduce embrittlement. Silane coupling agent only reacts with hydroxyl group on the filler surface via water condensation of silanol-siloxane process, therefore, it is suitable for glass, alumina hydroxide, magnesium hydroxide and metal powder etc. The advantage of titanate coupling agents is that they react not only with the hydroxyls but the free protons on the inorganic interface, which results in the formation of organic monomolecular layers on the inorganic surface forming the bonding for polymers.
  • Tytan coupling agents can enhance the dispersion of inorganic fillers in polymer systems such as PP, PE, by modifying the surface of filler particles. The content of fillers can therefore be increased, saving the cost of polymer, while maintaining the mechanical property.
  • Replacement for PU catalysts, especially for tin-based catalysts like DBTL. One- and two- component polyurethane systems, e.g. for automotive refinish coatings, general industrial coatings, coil coatings formulated with blocked isocyanates. Condensation reaction in RTV silicone resins and accelerate the cross-linking process. Catalyst for PU foams.
  • 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.