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Nano and Silicone Technology


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  • ALBIDUR® EP 2240 A

    ALBIDUR® EP 2240 A is a white, 40 % concentrated dispersion of a high performance core-shell elastomer in an epoxy resin based on bisphenol A used to toughen brittle epoxies.

  • ALBIFLEX® 1166

    ALBIFLEX® 1166 is a novel aliphatic urethandiacrylate resin intended for formulating high-per-formance elastomers.

  • ALBIFLEX® 246

    ALBIFLEX® 246 is a novel Bisphenol-A-epoxy-silicone block copolymer resin which is used to manufacture high-performance elastomers.

  • ALBIFLEX® 296

    ALBIFLEX® 296 is a bisphenol-A-epoxy-silicone block copolymer resin which is used to manufacture high-performance elastomers.

  • ALBIPOX® 1000

    ALBIPOX® 1000 is a high performance elastomer-modified epoxy resin based on Bisphenol A epoxy resin used to toughen brittle epoxy resins.

  • CATALYST 500 Series

    Platinum complexes for catalyzing addition-curing silicones

  • CATALYST TD 18

    - Not available in the Americas - Dioctyl tin carboxylate, catalyst without CMR classification for condensation-curing silicones and silane terminated polymers (POLYMER ST)

  • CROSSLINKER 100 Series

    Polysiloxane crosslinkers for addition-curing silicones with pending SiH groups

  • CROSSLINKER 200 Series

    Polysiloxane crosslinkers for addition-curing silicones with pending and terminal SiH groups

  • CROSSLINKER OX 10

    Methyl tris (butanone oxime) silane (MOS), crosslinker for condensation-curing silicones

  • CROSSLINKER OX 20

    Vinyl tris (butanone oxime) silane (VOS), crosslinker for condensation-curing silicones

  • CROSSLINKER OX 32

    Mixture of butanone oxime silane crosslinkers (VOS/TOS) for condensation-curing silicones

  • CROSSLINKER OX 33

    Mixture of butanone oxime silane crosslinkers (VOS/TOS) for condensation-curing silicones

  • INHIBITOR Series

    Various inhibitors for adjusting the potlife of addition-curing silicones.

  • Modifier 705

    Modifier 705 and Modifier 715 are SiH-terminated polydimethyl siloxanes which are used as plasticizers in addition-curing silicones. Due to their difunctional structure, these products do not react by crosslinking, but by extending the chains of vinyl-terminated silicone polymers (Polymer VS). Use of the modifiers reduces the crosslinking density and therefore the elastomer hardness.

  • Modifier 715

    Modifier 705 and Modifier 715 are SiH-terminated polydimethyl siloxanes which are used as plasticizers in addition-curing silicones. Due to their difunctional structure, these products do not react by crosslinking, but by extending the chains of vinyl-terminated silicone polymers (Polymer VS). Use of the modifiers reduces the crosslinking density and therefore the elastomer hardness.

  • Modifier OH 650

    Modifier OH are reactive silicone plasticizers for condensation systems containing both crosslinkable (hydroxy-functional) and unreactive chain ends. Modifier OH are therefore particularly suited for producing “non-bleeding” silicone sealants for marble/natural stone applications and for the electronics industry. Gel-like materials can also be produced using Modifier OH.

  • Modifier OH 655

    Modifier OH are reactive silicone plasticizers for condensation systems containing both crosslinkable (hydroxy-functional) and unreactive chain ends. Modifier OH are therefore particularly suited for producing “non-bleeding” silicone sealants for marble/natural stone applications and for the electronics industry. Gel-like materials can also be produced using Modifier OH.

  • NANOCRYL® A 200

    NANOCRYL® A 200 is a versatile dispersion of colloidal silica in a monofunctional acrylate monomer for the use in adhesive applications.

  • NANOCRYL® A 210

    NANOCRYL® A 210 is a versatile dispersion of colloidal silica in a difunctional acrylate monomer for the use in adhesive and electronic applications.

  • NANOCRYL® A 215

    NANOCRYL® A 215 is a versatile dispersion of colloidal silica in a difunctional acrylate monomer for the use in adhesive applications.

  • NANOCRYL® A 220

    NANOCRYL® A 220 is a versatile dispersion of colloidal silica in a trifunctional acrylate monomer for the use in adhesive applications.

  • NANOCRYL® A 223

    NANOCRYL® A 223 is a versatile dispersion of colloidal silica in a trifunctional polyether acrylate for the use in adhesive applications.

  • NANOPOX® E 430

    NANOPOX® E 430 is a high performance, versatile, silica reinforced epoxy resin based on a mixture of bisphenol A and F for the use in electrical and electronic applications

  • NANOPOX® E 470

    NANOPOX® E 470 is a high performance, versatile, silica reinforced bisphenol A based epoxy resin for the use in fiber composites.

  • NANOPOX® E 500

    NANOPOX® E 500 is a high performance, versatile, silica reinforced bisphenol F based epoxy resin for the use in electrical and electronic applications.

  • NANOPOX® E 601

    NANOPOX® E 601 is a high performance, versatile, silica reinforced cycloaliphatic epoxy resin for the use in electrical and electronic applications.

  • NANOPOX® E 770

    Nanopox® E 770 is a high performance, versatile, nanosilica reinforced epoxy resin for the use in electrical applications like PCBs or impregnating resins.

  • PLASTICISER 860

    PLASTICISER 860 is a polyether-based plasticiser for silane-modified polymers.

  • Polymer MV 2000

    Monovinyl-terminated polysiloxanes, reactive plasticizers for addition-curing silicones

  • Polymer OH 0.1

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 100 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.1 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 0.75

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 1

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 2

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 20

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 3.5

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 300

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 5

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OH 80

    Polymer OH are polydimethyl siloxanes with terminal silanol groups used as base polymers in condensation-curing silicone elastomers. Polymer OH is available in different viscosity levels between 80 and 400 000 mPas. Other viscosities are possible upon request. Please note that Polymer OH 0.08 acts as an inhibitor and can therefore be used for delaying the curing process.

  • Polymer OR 501

    - Not available in the Americas - Special hydroxy-terminated polysiloxane, base polymer for non-bleeding condensation-curing silicones, 50000 mPas

  • Polymer RV 100

    Products of the Polymer XP RV range are vinyl-functional polydimethyl siloxanes of various molecular weights. They contain both, terminal and pendant vinyl groups. Due to this structure, they produce higher crosslinking densities than Polymer VS at similar viscosity levels.

  • Polymer RV 5000

    Products of the Polymer XP RV range are vinyl-functional polydimethyl siloxanes of various molecular weights. They contain both, terminal and pendant vinyl groups. Due to this structure, they produce higher crosslinking densities than Polymer VS at similar viscosity levels.

  • Polymer VS 100

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 1000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 10000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 100000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 165000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 200

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 2000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 20000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 50

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 500

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 5000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • Polymer VS 65000

    The products of the Polymer VS series are vinyl-terminated polydimethyl siloxanes with different viscosity levels and molecular weights, and an extremely low content of volatile constituents.

  • VQM 903

    Viscosity at 25 °C [mPas]: 10000 | The VQM products are formulations comprising a vinyl-functional QM resin and vinylfunctional silicone polymers. They are used for producing transparent, filler-free formulations with good mechanical properties or for improving the mechanical properties and the flow behavior of filled systems.

  • VQM 906

    Viscosity at 25 °C [mPas]: 50000 | The VQM products are formulations comprising a vinyl-functional QM resin and vinylfunctional silicone polymers. They are used for producing transparent, filler-free formulations with good mechanical properties or for improving the mechanical properties and the flow behavior of filled systems.

  • VQM 907

    Viscosity at 25 °C [mPas]: 50000 | The VQM products are formulations comprising a vinyl-functional QM resin and vinylfunctional silicone polymers. They are used for producing transparent, filler-free formulations with good mechanical properties or for improving the mechanical properties and the flow behavior of filled systems.

  • VQM 909

    Viscosity at 25 °C [mPas]: 1000 | The VQM products are formulations comprising a vinyl-functional QM resin and vinylfunctional silicone polymers. They are used for producing transparent, filler-free formulations with good mechanical properties or for improving the mechanical properties and the flow behavior of filled systems.

  • VQM 973

    Viscosity at 25 °C [mPas]: 30000 | The VQM products are formulations comprising a vinyl-functional QM resin and vinylfunctional silicone polymers. They are used for producing transparent, filler-free formulations with good mechanical properties or for improving the mechanical properties and the flow behavior of filled systems.

  • VQM 985

    Viscosity at 25 °C [mPas]: 4000 | The VQM products are formulations comprising a vinyl-functional QM resin and vinylfunctional silicone polymers. They are used for producing transparent, filler-free formulations with good mechanical properties or for improving the mechanical properties and the flow behavior of filled systems.

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