- Overcome the difficulties of improving wet traction and rolling resistance for rubber industry. Cooperate with appropriate polymers and silane coupling agents, increasing wet traction/ - Reducing rolling resistance
- Better fuel efficiency in high performance
- PCR and TBR tires
- Free flow additive
- Carrier additive applications for the food and industrial powders
- Over 20 products ranging from 9 microns to 250 microns, with surface areas from 90 to 200 m2/g
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Precipitated silica Filler Reinforcing agent New generation “High Dispersible Silica” (HDS silica) For food applications OSC has Halal and Kosher certification. Rolling Resistance and Wet Traction:
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Precipitated silica Matting agents are high-performance silica developed for gloss reduction in a vast range of applications for a vast range of applications. Absorbent for ink jet paper coatings Can be used in the production of defoamers Over 20 products ranging from 2 microns to 12 microns, with surface areas from 180 to 290 m2/g The line contains a variety of products differing in surface area, particle size, and oil absorption. These matting agents are perfectly suited for wood coatings including floor, furniture and cabinet coatings. They provide the best in efficiency, clarity, and in-can stability, while allowing for good flow and leveling.
- Good choice in both waterborne or solvent systems
- Recommended for for UV Coatings Applications
- Matting agents with high clarity and less impact on viscosity
- Matting agents for Coil Coatings Applications
- Matting agents for Low VOC Coatings Applications
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Precipitated silica Carrier, Free Flow Agent Food, battery separator Over 20 products ranging from 6 microns to 21 microns For food applications OSC has Halal certification and Kosher certification. Application examples: Food and Feed: Seasonings, Spices, Herbs, Sugar, Salt, Mineral mixes and Limestone Agrochemicals: Wettable powders Characteristics: Good flowability and anti-caking behavior of the milled powder
- reduces the caking of low melting powders.
- absorbs promptly any released liquid.
- avoids clogging of the mill and decreases the shutdown times.
- improves the free fl owing and anti-caking properties.
- reduces time and cost consuming maintenance intervals.
- increases the throughput by longer operation times.
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Resorcinol Modified Phenol Novolac Epoxy Resin. Highest functionality resorcinol modified phenol novolac epoxy resin. Maximum chemical resistance and Tg.
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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.
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Tytan ZPN is aqueous solution of ammonia zirconium lactate and is used in paint manufacture to improve gel strength, anti-sagging, paint structuring and levelling. Tytan ZPN shall be added at the last stage after formulated paint with typical level between 0.3 ~ 1.5%. Tytan ZPN works well in the surfactant stabilized paint as well as colloid stabilized paint.
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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.
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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.
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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.