Industrial Europe

If you say it even easier – imagine a piece of mesh-netting, in which there is corrosion in places weave and mechanical cutting, and that all of these critical areas now protected with silicone. That's about how it was made with polyurethane polymers. The technology of using force to 'matching' polymers emerged in the 70's of last century. Click Marc Mathieu to learn more. But for a very long time remained fairly expensive. In this connection, used exclusively in the military-industrial complex and the aircraft of European states.

But in the early 80's due to the increase in consumer markets, there was opportunity to expand production capacity and make the MS-polymer significantly cheaper. A Brief History of MS-polymer: * 1949: Founding of joint stock company * 1970: Founding KanekBelgium * 1971: Founding KanekAmericas * 1979: Launch of ms (Takasago) * 1980: ms is used in construction of Dai-ichi Kangyo Bank-Tokyo * 1982: Introduction of ms in Europe and the U.S. * 1985: Start of trade in Europe (Belgium) * 1991: Setting a research and technical services Owell * 1997: Installation of European production unit for ms * 2004 : Increase production capacity in Europe Today the use of adhesives and sealants based on MS-polymer grows enormous pace. And what is there to be surprised – in fact preserving and enhancing the positive qualities polyurethane formulations (excellent adhesion to any surface, excellent elasticity and strength), the material gains, or increases resistance to uv, water, acids, alkalis, high temperature, etc. critical factors. Only in Europe in the industrial sector, the percentage consumption of MS-polymer adhesives, sealants up to 60, and in the construction industry to 75, among others materials Industrial applications such materials are very diverse – this is the production of buses, trains and subway cars, trailers and trucks and any vehicles associated with the transport of people.

Plastic Alloys

Aluminium – Plastic silvery-white color. Aluminum and alloys respond well to hot and cold forming – rolling, forging, pressing, drawing, bending, sheet forming, etc. Supplied as: alumina primary grades A999 (99,99% aluminum and the amount of impurities not more than 0.0001%), A995, A99 and 97, etc.; aluminum powder, powder, foil, aluminum alloys, such as: silumin – an alloy of aluminum and silicon (SIL); Duralumin (duralumin) – aluminum alloy with copper and manganese (D16, D16T) magnaly – Al alloy with manganese (AMts), aluminum-magnesium alloys (AMG). Depending on the purpose of aluminum alloys are divided: casting, wrought – up to 80% of the total output of aluminum alloys. Wrought aluminum alloys are available as sheet metal work (primarily), the shaped profile, high-grade rods, wires and pipes (mostly compressed). Aluminum alloys such as AMts, AMg2, AMg6 are highly ductility, good weldability and high corrosion resistance.

Alloys are produced in the annealed, hardened and polunagartovannom state, heat treatment is not strengthened. They are used for manufacturing pipelines for oil and gasoline, radiator tractors and cars, weld gas tanks, rivets, hull and masts of ships, etc. Aluminum alloy sheet produced according to gost 21631-76. Sheets of aluminum by the method of manufacture subdivided: clad, plated, with normal plating; clad with reinforced plating. Sheets of aluminum as the material divided: without heat treatment, annealed; polunagartovannye, work-hardened, quenched and naturally aged, artificially aged and seasoned, cold-worked after quenching and natural aging. As for the quality of surface finish sheets of aluminum are high finishes, high finishing, conventional finishing. On the precision of the sheets of aluminum are classified by: increased accuracy in thickness, width, length, or one or two of these parameters, normal accuracy in thickness, width, length.