Methyltin catalysts

Methyl Tin Catalysts

Methyl tin catalysts are characterized by their high reactivity and are ideal for polyurethane production. Not only do they offer first-class performance, but they are also far less toxicologically problematic compared to standard butyl tin types. Rely on a modern, safe alternative that makes your production processes more effective and environmentally friendly.

Trade name Description Chem. formula CAS No.

TIB KAT 300

68928-76-7

Dimethyltin dineodekanoate 68928-76-7

TIB KAT 330

3865-34-7

Dimethyltin dioleate 3865-34-7

TIB KAT 340

51287-84-4

Dimethyltin bislaurylmercaptide 51287-84-4

TIB KAT 354

57583-35-4

Dimethyltin bis(2-ethylhexylmercaptoacetate) 57583-35-4

Methyltin catalysts –
Our products

Methyltin catalysts play a critical role in the polymer industry, particularly in the stabilization of polyvinyl chloride (PVC). By promoting rapid and complete polymerization, our catalysts help produce end products with consistent and reliable properties. This efficiency not only improves product quality, but also reduces production times and costs, resulting in more economical manufacturing overall.

 

In the coatings and paints industry, our methyl tin catalysts are essential to produce products with exceptional resistance and durability. They enable the formulation of coatings that meet the demanding requirements of the automotive industry, construction and other areas. Our catalysts improve the hardness and adhesion of coatings, resulting in durable and resilient surfaces.

 

Our catalysts also make an important contribution to adhesive production. They accelerate curing and improve the mechanical properties of adhesives, resulting in strong and durable bonds. These properties are particularly important for industrial applications where reliability and strength of adhesives are crucial. By optimizing the curing processes, our catalysts help increase efficiency and reduce costs in production.

 

In addition, our methyl tin catalysts offer sustainable benefits. Their ability to catalyze chemical reactions at lower temperatures helps save energy and reduce emissions. This supports our customers’ environmental goals and promotes sustainable production methods.