Organic Titanates are imperative multifunctional reagents utilized in the formulations of coatings and paints as well as in the preparation of binders. These reagents can be utilized as cross-linking agents, rheology modifiers, and chief ingredients for oxide formation and as catalysts.
The inimitable properties and reactivity of these chemical compounds help to boost the performance of coatings and paints in myriad applications like:
Coating ingredients (Nano-sized particles, pigments, etc.)
Industrial dispersionsCorrosion coatings
Water based inks and paints
These compounds perform a gamut of functions, when utilized in coatings and paint applications, including: adhesion promoter, surface modifier, catalyst and cross-linking agent.
These compounds can act as Lewis acid catalysts in numerous reactions.
Trans Esterification, Esterification, condensation and addition reactions; curing of binders and binder production
Increased cure rate
Low catalyst concentrations
Mid reaction conditions
Removal of undesirable side reactions
Accelerated curing rate
Replacement of toxic substances like chromium VI and antimony compounds
Organic titanates act as adhesion promoters between numerous, even functional coatings and non-reactive substrates. They can be used as a primer in a pre-treatment step, or like an additive to a coating formulation.
Wire coatings, printing inks and paints
Enhanced adhesion of coating to the substrates
Improved mechanical properties
Enhanced resistance to chemicals and water
This chemical compound is utilized as cross-linking agents in both flexographic and rotogravure printing inks that are usually applied to flexible packaging, to boot the adhesion of inks to many substrates.
Enhanced solvent, heat, water and chemical resistance
These organic compounds are used to cross-link polymers via forming stable bonds with various functional groups of binders and polymeric resins.
Industrial paints, dispersion paints, wire coatings and printing inks
Enhanced scratch resistance
Thixotrophy in dispersion paints
Enhanced resistance to chemicals, heat and water
These compounds are a brilliant source for Nano-sized ZrO2 and TiO2 molecules via hydrolytic procedures. These particles can render numerous excellent properties in coatings without altering the basic formulation. These improvements include: corrosion resistance; repellency; scratch resistance and easy cleaning ability.
These compounds can be utilized as surface modifiers. By means of controlled pyrolysis and hydrolysis, they develop a stable metal oxide layer for utilization as a coating or binder on numerous substrates for property modifications or for creation of Nano-sized particles.
Plastic Coatings, Paint binder, ZrO2 or TiO2 Nano-sized particles, pigment coating and metal coating.
Formation of stable ZrO2 or TiO2 layers