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プラスチック添加剤はどのようにしてプラスチック材料の特性を高めるのか?

はじめに

Due to its affordable production costs and lightweight characteristics, plastic materials are increasingly being used across a range of sectors. It has certain drawbacks, too, including poor flexibility, low tensile strength, and poor heat transmission. Plastic additives are used to improve the characteristics of plastic to suit certain requirements in a variety of sectors in order to address these deficiencies.

What Are Additives in Plastic?

Small amounts of compounds called plastic additives are added to plastic polymers during production. They are used to improve the strength, flexibility, durability, and heat resistance of plastic products. These additions can be found in liquid, powder, and granular forms, among others. Stabilizers, plasticizers, and fillers are the three basic types of additives.

How Are Properties Improved by Plastic Additives?

Stabilizers: These chemicals are used to shield plastic from elements that might cause oxidation, deterioration, and UV ray damage. Antioxidants, UV stabilizers, and heat stabilizers are some of the most often used stabilizers. While heat stabilizers guard against deterioration brought on by high temperatures, UV stabilizers shield the plastic from the impacts of the sun’s rays. Antioxidants stop the plastic from oxidizing, which shortens its shelf life.

Plasticizers: These additives are used to make plastic products more malleable and supple. Phthalates, adipates, and trimellitates are the three most often used plasticizers. They make the plastic more malleable and flexible by lowering the intermolecular pressures between the polymer chains.

Fillers: These substances are added to plastics to improve their mechanical characteristics and lower their price. The three fillers that are most frequently employed are talc, calcium carbonate, and glass fibers. Fillers improve the stiffness and tensile strength of plastic materials, enhancing their suitability for load-bearing applications.

結論

In conclusion, plastic additives improve the strength, durability, flexibility, and heat resistance of plastic materials. Plastic is shielded from environmental deterioration by stabilizers, made more flexible by plasticizers, and strengthened mechanically by fillers. Manufacturing companies may better adapt plastic materials for certain uses by being aware of the many additives that are available. The potential applications for plastic materials will only grow as a result of innovation in the plastics sector and the development of new additives.

 

 

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