*Slit/Punched die cut material available on request.
Eply EP-36 Electrical Paper / 36 Micron Polyester Film composite
Stock No |
Description |
Unit |
412602 |
Eply EP-36 018 0.18mm x 980mm x 148m |
metre |
412606 |
Eply EP-36 025 0.25mm x 980mm x 148m |
metre |
412608 |
Eply EP-36 030 0.30mm x 980mm x 123m |
metre |
412610 |
Eply EP-36 040 0.40mm x 980mm x 92m |
metre |
Eply EP-50 Electrical Paper / 50 Micron Polyester Film composite
Stock No |
Description |
Unit |
412612 |
Eply EP-50 016 0.16mm x 980mm x 148m |
metre |
412613 |
Eply EP-50 020 0.20mm x 980mm x 148m |
metre |
412614 |
Eply EP-50 025 0.25mm x 980mm x 148m |
metre |
412615 |
Eply EP-50 030 0.30mm x 980mm x 123m |
metre |
412616 |
Eply EP-50 040 0.40mm x 980mm x 92m |
metre |
Eply DMD Composite Polyester Fibres (Dacron) / Polyester Film Polyester Fibres (Dacron)
Stock No |
Description |
Unit |
412680 |
Eply DMD W 015 0.15mm x 980mm |
metre |
412682 |
Eply DMD W 025 0.25mm x 980mm |
metre |
412614 |
Eply DMD W 030 0.30mm x 980mm |
metre |
412615 |
Eply DMD W 035 0.35mm x 980mm |
metre |
Eply NMN Composite Nomex / Polyester Film / Nomex (see below for roll length)
Stock No |
Description |
Unit |
412620 |
Eply NMN 020 0.20mm x 900mm x 134m |
metre |
412622 |
EpEply NMN 025 0.25mm x 900mm x 134m |
metre |
412624 |
Eply NMN 032 0.32mm x 900mm x 134m |
metre |
412635 |
Eply NMN 035 0.35mm x 900mm x 134m |
metre |
412626 |
Eply NMN 047 0.47mm x 900mm x 134m |
metre |
412628 |
Eply NMN NC 030 0.30mm x 950mm x 105m |
metre |
EP Varnished Glass Cloth (45.5m Rolls)
Stock No |
Description |
Unit |
410080 |
ISO 5JF44 Glass Cloth S/C 0.25x914mm |
metre |
Applications
Eply EP-50 is widely used as a slot and slot closure insulation in a wide range of electric motors rated at Class B temperature rise. Eply EP-50 also finds use as a slot and barrier insulation in vehicle electric’s, lighting ballasts, portable tools and domestic appliances. Eply EP-50 laminates have excellent flexibility, tensile strength and tear resistance and are very suitable for automatic punching, forming and insertion processes.
Eply DMD
A 3-ply (triplex) laminate of non woven Polyester (PETP) fibres on either side of Polyester (PET) film.
Class F 155°C
Technical Description
The Eply DMD range of flexible insulation composite materials are produced by laminating various thicknesses of non woven Polyester (PETP) fibres between Polyester (PET) film using a thermally stable adhesive resin as the bonding agent. Eply DMD laminates are often used in the manufacture and repair of Class F rated AC induction motors, which operate continuously at approximately 20°C below their rated temperature rise. Eply DMD will offer adequate thermal performance for such machines.
Applications
Eply DMD flexible laminates are widely used as slot and slot closure insulation in electric motors and alternators rated up to Class F temperature rise. They are also widely used in air cooled transformers and portable tools. Eply DMD composites have sufficient flexibility, tensile strength and tear resistance to make them suitable for easy forming, punching and insertion by automated machinery.
Eply DMD
A 3-ply (triplex) laminate of non woven Polyester (PETP) fibres on either side of Polyester (PET) film.
Class F 155°C
Technical Description
The Eply DMD range of flexible insulation composite materials are produced by laminating various thicknesses of non woven Polyester (PETP) fibres between Polyester (PET) film using a thermally stable adhesive resin as the bonding agent. Eply DMD laminates are often used in the manufacture and repair of Class F rated AC induction motors, which operate continuously at approximately 20°C below their rated temperature rise. Eply DMD will offer adequate thermal performance for such machines.
Applications
Eply DMD flexible laminates are widely used as slot and slot closure insulation in electric motors and alternators rated up to Class F temperature rise. They are also widely used in air cooled transformers and portable tools. Eply DMD composites have sufficient flexibility, tensile strength and tear resistance to make them suitable for easy forming, punching and insertion by automated machinery.