SILAX

SILAX keeps surfaces permanently dry and clean.

Heavily usedsurfaces are excellently protected by the rolloffeffect . The rolloffeffect occurs immediately after the drying process. Because of hemicro structure of SILAC, the contact surface for water and dirt isextremely reduced. Hence, the adhesive force is greatly reduced.Water and dirt roll off immediately. In addition to the achievedprotection against humidity and high pollution, also the protectîonagainst the decay of algae and fungal decay is assured . SILAX isonly used by specially trained firms such as the KGB. Theapplication is done in a coating thickness of about 4.0 um and remains very weatherproof.
The basis of our used product SILAX is the gaseous Silane, which isbound in an alcoholic dispersion by a complex chemical processes.

Silane and siloxane are intermediate products based on silicon, whichis used in many fields. Intermediate products of silane with differentstructures, which are won by the MüllerRochow synthesis in the industrial norm, are, for example, dimethyldichlorsilan, methyltrichlorsilan and trimethylchlorosilane. These intermediate products will be futher processed to silicone based oils, resins and elastomer.

Organic silicon compounds are also the ideal active ingredient forwaterproofing of mineral, metallic and synthetic materials. Arepresentative of this group are siliconebased resins. Silicone based resins are polymers with a siliconoxygen frame with organic endgroups, which react to a threedimensional crosslinked polysiloxanein the protected basic solution at the separation of alcohols. On the one hand, these compounds have a high affinity for the building material because of the siliconoxygen frame. On the other hand they have a hydrophobic effect because of the organic end groups. From achemical point of view, these compounds are relatively inactive, nondegradable biologically and therefore the ideal protection for theobject over several years.

Furthermore, trichlorsilane is won in huge quantieties by fluidisedbed technique from metallurgic silicon and hydrogene chloride. Aftera final distillation, it will be used for the production of polysilicon forthe industry of semiconductor and of photovoltaics as well as forthecoating of the silicon wafers (epitaxy). Trichlorsilanes also form the basis for the sythesis of organofunctionalsilanes.Further downstream products, which  are produced by the MuellerRochow procedure, are organosilanes. They are used  in thesynthesis of chemical active ingredients for the pharmaceutical andagroindustry and other further applications. These silanes are mainlyapplied as protecting groups, reducing agents, synthons, disruptiveagents and as a nonnucleophilic bases. Organofunctional silanesare silicon compounds with an organic function usually amino,epoxy,  or methacrylategroups that are bound by a rest of hydrocarbon to the part of Trialkoxysilane, so that this part can react with an inorganic substrate. Functional Siloxanes contain, for example, reactive hydroxyl, aminoor epoxygroups and a number of other organic substituents. Due to their high affinity to different substrates, functional siloxanes can bealso applied as textile additives as well as ingredient of cosmetics and hygiene products.