JADEWIN AN 1010

Antioxidants play a vital role in polymer processing, especially highly effective antioxidants like antioxidant 1010. This article will describe the use of antioxidant 1010 in polymer processing and its importance in providing long-lasting protection of the physical properties of the final product.

Properties and Uses of Antioxidant 1010

Antioxidant 1010, chemically known as bis(3,5-di-tert-butyl-4-hydroxyphenyl)butane, is a commonly used polymer stabiliser. Its main function is to prevent polymers from being affected by oxidation during processing and use, thereby extending the service life of the polymer and maintaining its original properties.

Key properties of antioxidant 1010 include:

Reduces Viscosity Changes and Gel Formation: During polymer processing, antioxidant 1010 effectively reduces the viscosity changes of the polymer and prevents the formation of gels, thereby ensuring smooth and stable processing.

Provides Long-Term Thermal Stability: Antioxidant 1010 provides polymer stability at elevated temperatures, preventing degradation and degradation due to thermal oxidation.

Long-term protection of polymer physical properties: During storage and use of the polymer product, antioxidant 1010 continues to protect the physical properties of the polymer from external environmental factors such as oxidation and aging.

Applications of Antioxidant 1010

Antioxidant 1010 is used in a wide variety of polymer processing and product applications, including but not limited to:

Plastics processing: In the production of polypropylene, polyethylene, polystyrene and other plastics, antioxidant 1010 can improve the thermal stability and aging resistance of polymers.

Rubber industry: In the manufacturing process of synthetic rubber, antioxidant 1010 can effectively extend the service life of rubber products.

Coatings and Inks: Adding antioxidant 1010 to coatings and inks can increase their weathering and durability.

Processing of Antioxidant 1010

During polymer processing, antioxidant 1010 is usually added to raw materials in the form of additives. The process generally includes the following steps:

Formulation: Determine the amount of antioxidant 1010 to be added and the optimum formulation based on the type of polymer and processing requirements.

Mixing: Mix the antioxidant 1010 with other additives or polymer feedstocks to ensure that the antioxidant is evenly dispersed throughout the system.

Processing: The mixed raw material is processed, either by extrusion, injection moulding, calendering, etc., and the antioxidant 1010 is processed along with the raw material into the final product.

Finished product test: The physical properties of the processed products are tested to verify the protective effect of antioxidant 1010 on the product properties.

Conclusion

As an efficient polymer stabiliser, antioxidant 1010 plays an important role in protecting the quality and performance of polymer products. Its application in polymer processing can reduce viscosity changes, provide thermal stability, and protect the physical properties of the products in the long term, making the polymer products better able to cope with various challenges during storage and use.

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