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Mica products for electrical insulation

Composition/Properties:

Good flexibility and conformability High dielectric strength Smooth surface Polyester Film both sides

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Isomica® 326.02-01 is based upon a combination of micapaper on a woven glass backing and polyester film on both sides of the tape. Isomica® 326.02-01 has a "B" stage resin as binder.

Composition/Properties:

Good flexibility and conformability High dielectric strength No need for impregnation

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Isomica® 326.12 is based upon a combination of micapaper on a woven glass backing on one side and a polyCarbonate film on the other side. Isomica® 326.12 has a "B" stage polybutadien resin as binder.

Composition/Properties:

Good flexibility and conformability High dielectric strength No need for impregnation

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Isomica® 326.13 is based upon a combination of micapaper on a woven glass backing on one side and a polyester film on the other side. Isomica® 326.13 has a "B" stage epoxy resin as binder.

Composition/Properties:

Conductor insulation Overhang insulation Highly flexible Silicon based Suitable for thermal class H electrical insulation systems

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, Railway industry, High-voltage electric drives

Description:

Samicaglas® SI 366.12 is based upon a wowen glass fabric and a muscovite mica paper impregnated with a silicon resin.

Composition/Properties:

Main wall insulation for VPI with accelerator Flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® 366.55-10 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.55-10 contains an accelerator.

Composition/Properties:

Main wall insulation for VPI with accelerator Highly flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® 366.55-12 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.55-12 contains an accelerator.

Composition/Properties:

Main wall insulation for VPI with accelerator Flexible for an easy bar manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Hydro-power plants, Coal power plants, Gas- and oil power plants, Nuclear power plants

Description:

Samicapor® 366.55-20 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.55-20 contains an accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Very flexible for an easy coil or bar manufacture Very good impregnability Suitable for thermal class F/H electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® 366.58 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.58 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Very flexible for an easy coil or bar manufacture Very good impregnability Suitable for thermal class F/H electrical insulation systems

Markets:

Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Samicapor® 366.58-18 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.58-18 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Flexible for an easy coil or bar manufacture Very good impregnability Suitable for thermal class F/H electrical insulation systems

Markets:

Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Samicapor® 366.58-20 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.58-20 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Highly flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems Very thin tape

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® 366.59-10 is based upon a woven glass fabric with an impregnated muscovite mica paper. Samicapor® 366.59-10 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® 374.04 is based upon a woven glass fabric as carrier, an impregnated muscovite mica paper and a polyester fleece covering. Samicapor® 374.04 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI with accelerator Flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® 374.15 is based upon a woven glass fabric as carrier, an impregnated muscovite mica paper and a polyester fleece covering. Samicapor® 374.15 contains an accelerator.

Composition/Properties:

Main wall insulation for VPI with accelerator High thermal conductivity for an improved heat dissipation Very good impregnability Flexible for an easy bar manufacture Suitable for thermal class F electrical insulation systems

Markets:

Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Samicapor® HTC 381.55-30 is based upon a woven glass fabric, impregnated muscovite mica paper and a filler for the high thermal conductivity. Samicapor® HTC 381.55-30 contains an accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator High thermal conductivity for an improved heat dissipation Very good impregnability Flexible for an easy bar manufacture Suitable for thermal class F electrical insulation systems

Markets:

Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Samicapor® HTC 381.58 is based upon a woven glass fabric, impregnated muscovite mica paper and a filler for the high thermal conductivity. Samicapor® HTC 381.58 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI with accelerator Very flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® P 315.33 is based upon a polyester film as carrier and an impregnated muscovite mica paper. Samicapor® P 315.33 contains an accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Very flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives

Description:

Samicapor® P 315.45 is based upon a polyester film as carrier and an impregnated muscovite mica paper. Samicapor® P 315.45 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Samicapor® P 323.12 is based upon a polyester film as carrier, an impregnated muscovite mica paper and a polyester fleece covering. Samicapor® P 323.12 does not contain any accelerator.

Composition/Properties:

Main wall insulation for VPI without accelerator Flexible for an easy coil manufacture Very good impregnability Suitable for thermal class F electrical insulation systems

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, High-voltage electric drives

Description:

Samicapor® P 326.30 is based upon a woven glass fabric, an impregnated muscovite mica paper and a polyester film covering. Samicapor® P 326.30 does not contain any accelerator.

Composition/Properties:

Main insulation For VPI with polyesterimide or silicone resins Dry and flexible Polyimide film backed For class H & C applications

Markets:

Wind power plants, Hydro-power plants, Diesel generator sets, Coal power plants, Gas- and oil power plants, Nuclear power plants, Railway industry, High-voltage electric drives

Description:

Samicapor® T 326.40 is based upon a woven glass fabric with an impregnated muscovite mica paper and backed with a polyimide film.

Composition/Properties:

Main wall insulation for VPI without accelerator Very flexible for an easy coil manufacture Very good impregnability Higher dielectric strength Suitable for thermal class F/H electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, Railway industry, High-voltage electric drives

Description:

Samicapor® T 366.53-01 is based upon a woven glass fabric with an impregnated muscovite mica paper.

Composition/Properties:

Main insulation for VPI without accelerator Very flexible for an easy coil manufacture Good impregnability High dielectric strength Suitable for thermal class F/H electrical insulation systems

Markets:

Wind power plants, Diesel generator sets, High-voltage electric drives, Railway industry

Description:

Samicapor® T 366.56-10 is based upon a woven glass fabric with an impregnated muscovite micapaper.

Composition/Properties:

Main insulation For VPI with silicone resins Very good impregnability Dry and flexible With aramid fibrids For class H & C applications

Markets:

Diesel generator sets, High-voltage electric drives, Railway industry

Description:

Samicapor® T 366.85 is based upon a de-sized woven glass fabric with an impregnated muscovite mica paper reinforced with aramid fibrids.

Composition/Properties:

Main wall insulation For VPI with silicone resin Very good impregnability Dry and dust free Flexible For class H & C applications

Markets:

Diesel generator sets, High-voltage electric drives, Railway industry

Description:

Samicapor® T 366.87 is based upon a woven glass fabric with an impregnated muscovite mica paper.

Composition/Properties:

Main wall insulation For VPI with silicone resin Very good impregnability Dry and dust free Flexible For class H & C applications

Markets:

Diesel generator sets, High-voltage electric drives, Railway industry

Description:

Samicapor® T 366.88 is based upon a woven glass fabric with an impregnated muscovite mica paper.