Federal State Unitary Enterprise
«S.V. Lebedev Institute of Synthetic Rubber»

+7 (812) 372−64−90

New findings in science

Fsue “ISR” welcome to cooperate all the specialists and organizations interested in marketing the institute proprietary high-effective processes for making raw rubbers and lattices which could be commercialized on the ground   of contracts or license agreements on the transfer (development) of science-technical products.

  • Processes for the production of general-purpose elastomers catalyzed by “lanthanide” systems for:
    • highly stereoregular polyisoprene;
    • highly stereoregular polybutadiene;
    • butadiene/isoprene copolymer.
  • Process for sindiotactic 1,2-polybutadiene.
  • Process for  1,2-polybutadiene production in aliphatic solvent.
  • Manufacturing know-how and process equipment for low-molecular stereoregular cis-1,4-polyisoprene through mechano-thermal oxidative depolymerization of commercial isoprene rubber.
  • Technology on the preparation of a depressing diesel fuel additive and oil viscous additives on the base of ethylene/propene and styrene/butadiene rubbers.
  • Process for epichlorohydrin rubbers based on cyclic oxides.
  • Novel energy-saving practice on recycling wastes of tires, mechanical rubber goods and latex products. Salvaging of worn tires.
  • Process for advanced 2-vinylpyridine-based  latices useful in tire industry.
  • Process for high-styrene carboxilated latices for paint-and-varnish industry.
  • Synthesis of liquid polyurethanes.
  • Process for silicone polymers useable as a base of medical compositions..
  • Technology of producing impression materials for dentistry.
  • Process for making ethylene/propene rubbers.
  • Process for making polyols – functional-terminated polybutadiene and oigodienes.
  • Technology of producing mixed thermoplastic elastomers serviceable in harsh environments.
  • Process for making siloxane raw rubbers and materials.
  • Process for the salt-free isolation of emulsion-polymerized rubbers with the use of  synthetic coagulants.
  • Process for the production of nitrile/butadiene rubbers.
  • Phenol- and amine-based antioxidants preparation and use for general-puepose rubbers.
  • Environmentally friendly technology of producing a high-efficient stopper in SBR emulsion polymerization.
  • Technology of producing a randomizer from common source raw materials for anionic polymerization.
  • Catalyst systems for making thermoplastic elastomers.
  • Process for making paint compositions usable in finishing building face walls and interiors.
  • Processes for producing water-proof roofing materials and pastes   based on general-purpose rubbers.
  • Processes for producing emulsion-polymerized styrene-butadiene rubbers.
  • Process for unsaturated terpene hydroperoxides – initiators in the emulsion polymerization.
  • Processes for the manufacture of solution-polymerized styrene-butadiene rubbers.
  • Technology of producing lithium-catalyzed polybutadiene.
  • Technology of producing disproportionated both rosin and tall oils.