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Glycidyl Methacrylate Modified Polyolefin Elastomer as Toughener for PET PBT

Model No.: W500

lntroduction:

Coace® W500 is a glycidyl methacrylate modified polyolefin elastomer sed as a toughener for polyester and the fire retardant filled polyester with high grafted rate.
Characteristics Value Test method
Density 0.87 g/㎤ ASTM D792
MFR(190℃ 2.16kg) 1-4 g/10min ASTM D1238
Glycidyl Methacrylate Content Ultra high ASTM D3418
Appearance Translucent or white /

Notes [1] LOW<0.5wt%; Middle (0.5-1.0wt%); High (1.0-1.5wt%); Ultra high (1.5-4.0wt%)

Products Description

 

Coace® W500 is a glycidyl methacrylate modified polyolefin elastomer with high grafted rate.

Glycidyl Methacrylate Modified Polyolefin Elastomer is an innovative additive that improves the toughness and mechanical capabilities of PET and PBT polymers. This versatile toughener contains glycidyl methacrylate modification, which offers a number of advantages that considerably increase the performance and applications of PET and PBT materials.

 

Advanced Equipment!

Equipped with advanced production lines and experimental testing center to ensure product quality.

Strong Technical Force!

More than 10 experienced technical R&D staff drive continuous innovation.

 

Characteristic

 

Characteristics Value Test method
Density 0.87 g/㎤ ASTM D792
MFR(190℃ 2.16kg) 1-4 g/10min ASTM D1238
Glycidyl Methacrylate Content Ultra high ASTM D3418
Appearance Translucent or white /

Notes [1] LOW<0.5wt%; Middle (0.5-1.0wt%); High (1.0-1.5wt%); Ultra high (1.5-4.0wt%)

  • Glycidyl Methacrylate Modification: The polyolefin elastomer is treated with glycidyl methacrylate to improve compatibility and interfacial adhesion with PET/PBT matrices. This alteration allows for efficient stress transmission and effective toughening of the polymer systems.
  • Increased Toughness: The addition of the Glycidyl Methacrylate Modified Polyolefin Elastomer greatly increases the toughness and impact resistance of PET and PBT polymers. It adds elasticity and ductility to materials, increasing their ability to withstand mechanical loads and lowering the likelihood of brittle failure.
  • Compatibility with PET and PBT: This toughener has a high affinity for PET and PBT polymers. It provides uniform dispersion and good blending at the molecular level, which helps to improve the mechanical characteristics and overall performance of polymer alloys.
  • Thermal Stability: The Glycidyl Methacrylate Modified Polyolefin Elastomer improves thermal stability for PET and PBT materials. It allows the compounds to tolerate high processing temperatures while retaining mechanical qualities during molding and assuring dimensional stability in a variety of applications.
  • Processing Ease: The improved polyolefin elastomer makes it easier to process PET and PBT composites. It has low melt viscosity, which allows for effective melt blending and smooth processing activities including injection molding, extrusion, and blow molding.
Advantage

 

Improved Impact Resistance: The use of Glycidyl Methacrylate Modified Polyolefin Elastomer greatly improves the impact resistance of PET and PBT polymers. It lowers the danger of crack propagation and material failure under impact loads, resulting in more durable and dependable finished products.

Improved Flexibility and Ductility: The toughener increases PET and PBT materials’ flexibility and ductility, making them more resistant to deformation and capable of withstanding dynamic loads. This feature is especially useful in situations that need frequent bending or stretching.

 

Increased Energy Absorption: The modified polyolefin elastomer enhances the energy absorption capacity of PET and PBT polymers, allowing them to effectively absorb and dissipate impact energy. This feature is critical in applications that require protection against impact and vibration, such as automotive components and consumer electronics.

 

Design Freedom: By enhancing the toughness and mechanical qualities of PET and PBT, the toughener broadens design options for product engineers. It enables the design of thinner and lighter parts without sacrificing performance, resulting in cost savings while keeping high quality standards.

 

Our advantage

Global Supply Chain!

Sound Storage And Logistics Supply Chain System
Technical Support
After-sales protection

Focus • Achievement • Excellence!

Products Customized
Focus on R&D
Global Services

Coace Certification!

ISO9001:2015 Certification
ISO14001:2015 Certification
EU REACH registration

Korea K-REACH pre-registration

Enterprise advantage!

Layout at home and abroad, wonderful for mixing
Domestic marketing layout
Overseas marketing layout

 

Application

 

Typical application

To be used as a toughener for polyester and the fire retardant filled polyester, eg. PET, PBT, PET/FR, PBT/FR and other polyester compounds.

To be used as a compatibilizer for polyolefin and polyester alloys.

To be used as an adhesive for some laminate structures.

Application Industry

1.car Components: The toughener improves the impact resistance and toughness of PET and PBT materials used in car parts such as bumpers, interior trims, and under-hood components. It enhances crash performance, durability, and resistance to environmental conditions.

2. Electrical & Electronics: The modified polyolefin elastomer is compatible with PET and PBT compounds found in electrical connectors, switches, housings, and insulation materials. It increases the mechanical strength, impact resistance, and dependability of these components, meeting the stringent standards of the electrical and electronics industries.

3. Packaging: The toughener increases the toughness and puncture resistance of PET and PBT used in packaging applications such bottles, containers, and films. It provides improved protection from impact and transportation pressures, preserving product integrity and increasing shelf life.

4. Consumer Goods: The Glycidyl Methacrylate Modified Polyolefin Elastomer increases the toughness and performance of PET and PBT in consumer goods applications such as appliances, sporting goods, and furniture. It increases resistance to impact, wear, and deformation, resulting in robust and dependable products for end users.

 

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