Reaxis®

Dioctyltin dilaurate. Acts as an organotin catalyst. It is stable and contains dioctyl tin functionality. Possesses improved toxicological properties compared with dibutyl tin derived catalysts... view more

Stannous carboxylate. It is a liquified tin-based catalyst that is a blend of a stannous compound and a plasticizer. Used in polyurethane and polyesters/esters... view more

Stannous carboxylate. Acts as a tin-based catalyst. It can be utilized neat or as a mixture in alcohols. A minimum temperature of 160°C is required for esterification reactions. Reaxis® C113 can be... view more

Stannous neodecanoate. Acts as a tin-based catalyst. It gives an enhanced storage stability in various RTV silicone formulations. Can be utilized neat or as a mixture in alcohols. Reaxis® C125 is... view more

Stannous octoate. Acts as tin-based catalyst. Can be utilized neat or as a mixture in alcohols. It can be removed from esters via chemical methods or by adsorption. Possesses an incompatibility with... view more

Stannous carboxylate. Acts as a tin based catalyst. It is stable, anti-corrosive and possesses incompatibility with oxidizers. Can be utilized neat or as a mixture in alcohols. It is removed from... view more

Dibutyltin carboxylate. Acts as an organometallic catalyst. Possesses an extended pot life, low foaming, low color and high selectivity for the isocyanate/alcohol reaction. Used for catalysis of... view more

Dioctyltin mercaptoacetate. Acts as an organometallic catalyst. Reaxis® C214 is hydrolytically stable and possesses low toxicity. It is usually more reactive than DBTL (REAXIS® C218) for most... view more

Dibutyltin dilaurate. Acts as an organo-tin catalyst. It is stable along with good balance of pot life and cure. Possesses an incompatibility with strong oxidizing agents, strong acids and strong... view more

Dibutyltin carboxylate. Acts as an organometallic catalyst. It is stable and offers anti-fogging effect. Possesses an incompatibility with strong oxidizing agents, strong acids and strong bases... view more

Dibutyltin carboxylate. Acts as an organo-tin catalyst. It is stable and has good heat stability. Possesses an incompatibility with strong oxidizing agents, strong acids and strong bases. Used... view more

Dioctyltin ketonate. Acts as an organometallic catalyst. It is stable and possesses lower toxicity. Used in the synthesis of polyurethane systems and polycondensation reactions of RTV silicone... view more

Dibutyltin carboxylate. Acts as an organotin catalyst. It provides a reaction profile in polyurethane systems similar to that of mercury catalysts. Has high selectivity for the NCO/OH reaction but... view more

Tetrabutyltin stannoxane. Acts as an organotin catalyst. Has higher catalytic activity compared to other grades of DBTL, due to significantly higher tin content. Used mainly in polyurethane... view more

Dibutyltin ketonate. Acts as an organometallic catalyst. It is stable and good in MS system. Used in the synthesis of polyurethane systems as well as polycondensation reactions of RTV silicone... view more

Dibutyltin mercaptide. Acts as an organometallic catalyst. It is stable and exhibits high activity and improved hydrolytic stability. Possesses an incompatibility with strong oxidizing agents... view more

Dioctyltin carboxylate. Acts as an organometallic catalyst. It is highly active and possesses lower toxicity. Used in silicone condensations, esterifications, polyesters/esters as well as... view more

Dibutyltin carboxylate. Acts as an organometallic catalyst. Reaxis® C233 is stable and highly active. It is slightly sensitive to moisture and reacts with bases as well as reducing agents. Used in... view more

Dibutyltin carboxylate solvent solution. Acts as an organometallic catalyst. Reaxis® C233T is stable and highly active. It reacts with bases and reducing agents. Used in the catalysis of... view more

Dibutyltin sulfide. Acts as an organometallic catalyst. It exhibits high activity as well as an improved hydrolytic stability versus tin mercaptides and organotin carboxylates. Used in polyurethane... view more

Utyltin oxide. Acts as an organometallic catalyst. Possesses an incompatibility with reactions involving oxidizing agents and accumulation of fine dust explosion in presence of air. Used mainly in... view more

Dibutyltin carboxylate. Acts as an organometallic catalyst. It is manufactured from synthetic raw materials and provides excellent temperature and color stability. Used in various applications... view more

Dibutyltin mercaptide. Acts as an organometallic catalyst. It is hydrolytically stable and provides more of a delayed action cure as compared to organotin carboxylates. Used in the synthesis and... view more

Dibutyltin mercaptide. Acts as an organometallic catalyst. It is hydrolytically stable and provides more of a delayed action cure as compared to organotin carboxylates. Possesses an incompatibility... view more

Dibutyltin mercaptide. Acts as an organometallic catalyst. It is hydrolytically stable and provides more of a delayed action cure as compared to organotin carboxylates. Possesses an incompatibility... view more

Dibutyltin mercaptide. Acts as an organometallic catalyst. It is hydrolytically stable and provides more of a delayed action cure as compared to organotin carboxylates. Possesses an incompatibility... view more

Dibutyltin mercaptoester. Acts as an organometallic catalyst. It provides for more of a delayed action cure and enhanced hydrolytic stability compared to organotin carboxylates. Possesses an... view more

Dibutyltin mercaptoester. Acts as an organometallic catalyst. It provides for more of a delayed action cure and enhanced hydrolytic stability compared to organotin carboxylates. Possesses an... view more

Dioctyltin mercaptide. Acts as an organometallic catalyst. Reaxis® C421 is stable and possesses an incompatibility with strong oxidizing agents, strong bases and strong acids. It exhibits high... view more

Zinc carboxylate. Acts as a catalyst. It is stable and provides an enhanced crosslinking. Possesses an incompatibility with oxidizing, acidic or alkali materials. Reaxis® C616 exhibits lower... view more

Zinc octoate. Acts as a catalyst. Reaxis® C620 promotes lower reactivity compared to organotins and provides pot life extension in 2-component systems. It catalyzes a variety of isocyanate... view more

Bismuth neodecanoate. Acts as a catalyst. It is stable and provides a good balance in potlife and cure. Used as a good non-tin alternative to DBTL for various elastomer systems... view more

Bismuth carboxylate. Acts as a mixed metal catalyst. It is characterized by a high selectivity for the NCO/OH reaction, especially in 2K formulations. Used for the catalysis of polyurethane systems... view more

Bismuth carboxylate. Acts as a catalyst. Reaxis® C722 is dissolved in oil for ease of dissolution within the formulation. It can be added to the formulation as it is or as an alcohol-blend. Used for... view more

Tertiary amine. Acts as a catalyst. Reaxis® CA30 is stable and highly activated. It is incompatible with strong oxidizing agents, acids, halogenated organic compounds, aldehydes, copper and copper... view more

Tertiary amine. Acts as a catalyst (TEDA standard). It is incompatible with strong oxidizing agents, acids, halogenated organic compounds, aldehydes, copper and copper alloys. Used in polyurethane... view more

Tertiary amine. Acts as a catalyst. Reaxis® CA60 is stable and highly activated. It is incompatible with strong oxidizing agents, acids, halogenated organic compounds, aldehydes, copper and copper... view more