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プラスチック産業で使用されるポリエチレン系衝撃改質剤の一般的な種類は何ですか?

In the plastics sector, impact modifiers are essential for enhancing polyethylene (PE) products’ resilience to impact. Impact modifiers based on polyethylene are made expressly to increase the toughness and endurance of PE, enabling it to resist impacts and mechanical strains.

 

Impact Modifiers for Ethylene-Propylene Rubber (EPR)

Impact modifiers made of ethylene-propylene rubber (EPR) are extensively used in the plastics industry because of their superior compatibility with polyethylene matrices. These modifiers, which are copolymers of ethylene and propylene, give PE materials remarkable flexibility, low-temperature performance, and impact resistance. EPR impact modifiers are produced using a melt or solution blending technique, which guarantees consistent dispersion in the polymer matrix.

Modifiers of Ethylene-Vinyl Acetate (EVA) Impact

Impact modifiers made of ethylene-vinyl acetate (EVA) have a special set of qualities that make them appropriate for a range of polymer applications. EVA copolymers, which are made up of vinyl acetate and ethylene monomers, have good flexibility, impact resistance, and processability. The toughness and compatibility of EVA impact modifiers with various PE grades are determined by the amount of vinyl acetate they contain. These modifiers are typically made via reactive extrusion or melt blending.

Impact Modifiers for Polyolefin Elastomers (POEs)

In the plastics industry, polyolefin elastomers (POEs)—such as ethylene-propylene copolymers or ethylene-octene copolymers—are widely employed as impact modifiers. POEs give PE materials remarkable impact strength, flexibility, and elongation qualities because of their special elastomeric structure. POEs are usually produced using Ziegler-Natta or metallocene catalysis, which allows for exact control over molecule distribution and structure.

Impact modifiers made of thermoplastic polyurethane (TPU)

Impact modifiers made of thermoplastic polyurethane (TPU) give polyethylene exceptional toughness and resilience to impact. TPUs are block copolymers with superior mechanical, abrasion, and chemical resistance. They are made up of alternating soft and hard segments. Impact modifiers made of TPU can be effectively included into PE matrices by using procedures such as melt blending or reactive extrusion.

Impact Modifiers for Polyethylene-Graft-Maleic Anhydride (PE-g-MAH)

Impact modifiers that combine polyethylene with graft-maleic anhydride (PE-g-MAH) are frequently used to improve polyethylene’s compatibilization and impact strength. These modifiers enhance the adhesion and compatibility between PE and other materials by grafting maleic anhydride (MAH) onto polyethylene chains. Impact modifiers PE-g-MAH are usually prepared via melt grafting or reactive extrusion.

 

Uses and Benefits

The impact modifiers based on polyethylene listed above are widely used in a variety of industries:

car: To improve impact resistance and safety, impact-modified polyethylene is used in bumpers, dashboards, and door panels, among other external and interior car components.

Packaging: In flexible packaging applications, impact modifier-infused polyethylene films are used to guard against damage during handling and transit.

building: To increase durability and resistance to impact loads, impact-modified polyethylene is used in pipes, fittings, and insulation, among other building components.
Electronics: To shield delicate equipment from impacts and mechanical shocks, impact-resistant polyethylene is utilized in electronic enclosures and components.

Impact modifiers based on polyethylene have the following main benefits:

Enhanced Impact Resistance: Polyethylene materials’ toughness and resistance are greatly increased by impact modifiers, lowering the possibility of failure under impact loads.
Enhanced Processability: By preserving or enhancing polyethylene’s processability, these modifiers make manufacturing and molding processes easier.
Versatility: Impact modifiers based on polyethylene can be modified to satisfy certain performance standards, providing a variety of choices for various applications and processing circumstances.

Cost-Effectiveness: Impact modifiers enable the use of less expensive base polymers in polyethylene while still obtaining the required level of impact resistance.

Impact modifiers based on polyethylene are essential for improving polyethylene materials’ resistance to impact, which makes them usable in a variety of industrial applications. Impact modifiers that are frequently used in the plastics sector include ethylene-propylene rubber, ethylene-vinyl acetate, polyolefin elastomers, thermoplastic polyurethane, and polyethylene-graft-maleic anhydride. It is crucial to comprehend the characteristics, production procedures, uses, and benefits of these impact modifiers in order to optimize material choices and create high-performing polyethylene-based goods.

 

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