Polyolefin Elastomer Dow 8100 POE Transparent Plastic Granules For Wire & Cable

Data sheet

Product Details

ENGAGE™ 8100 Polyolefin Elastomer is an ethylene-octene copolymer characterized by excellent flow properties. It performs exceptionally well across a wide range of general-purpose thermoplastic elastomer applications and is widely utilized in numerous industrial sectors.

 

Key Features:

Pellet Form

·Enhances the impact resistance of polypropylene and polyethylene

 ·Excellent Flowability: With an MFR of 1.0 g/10 min, it is suitable for high-speed molding processes such as              injection molding and extrusion.


Applications:

General-Purpose Thermoplastic Elastomers

Wire & Cable: Insulation and jacketing materials

Automotive Industry: Bumpers, seals, etc.—improving low-temperature impact resistance and enabling lightweighting

Impact Modification: Primarily used for the toughening of PP, PE, and PA, significantly enhancing impact strength and elongation at break


Brand Name: dow

Model Number: 8100

MFI: 1.0g/10min

Shape: Particle

Package: 25kg/bag

MOQ: 25KG

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Polyolefin Elastomer Dow 8100 POE Transparent Plastic Granules For Wire & Cable

ENGAGE™ 8100 Polyolefin Elastomer is an ethylene-octene copolymer characterized by excellent flow properties. It performs exceptionally well across a wide range of general-purpose thermoplastic elastomer applications and is widely utilized in numerous industrial sectors.

 

Key Features:

Pellet Form

·Enhances the impact resistance of polypropylene and polyethylene

 ·Excellent Flowability: With an MFR of 1.0 g/10 min, it is suitable for high-speed molding processes such as              injection molding and extrusion.


Applications:

General-Purpose Thermoplastic Elastomers

Wire & Cable: Insulation and jacketing materials

Automotive Industry: Bumpers, seals, etc.—improving low-temperature impact resistance and enabling lightweighting

Impact Modification: Primarily used for the toughening of PP, PE, and PA, significantly enhancing impact strength and elongation at break