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Anti aging agent manufacturing method: Research in the field of chemical production raw materials. Abstract: This article introduces a manufacturing method for anti-aging agents in the field of chemical production raw materials. This method includes multiple steps such as mixing raw materials, reaction, and post-treatment, and has the advantages of simple operation, high production efficiency, and good product quality. Through experimental verification, this method can effectively improve the performance indicators of anti-aging agents, providing important technical support for chemical production

Keywords: raw materials for chemical production, anti-aging agents, manufacturing methods 

Introduction 

With the rapid development of the chemical industry, various chemical products often undergo aging due to factors such as heat, oxygen, and light during production, storage, transportation, and use. In order to extend the service life of chemical products and improve their stability, the application of anti-aging agents is becoming increasingly widespread. Therefore, studying the manufacturing methods of antioxidants is of great significance for improving the quality and yield of chemical products

Experimental Section 

2.1 Experimental Materials 

The raw materials required for this experiment include styrene, acrylic acid, benzoyl peroxide, antioxidants, etc

2.2 Experimental Equipment 

The main equipment required for the experiment includes: reactor, agitator, thermometer, condenser, etc

2.3 Experimental Steps 

(1) Add styrene and acrylic acid in a certain proportion to the reactor, turn on the stirrer, and heat to a certain temperature

(2) Add benzoyl peroxide as an initiator to initiate the polymerization reaction

(3) After a certain period of reaction, add antioxidants and continue the reaction for a period of time

(4) After the reaction is completed, post-treatment is carried out, including cooling, filtering, washing, drying, and other steps to obtain the antioxidant product

2.4 Experimental Results and Analysis 

Through the above steps, we have successfully synthesized an anti-aging agent. By testing the performance indicators of the product, it was found that it has good thermal oxidative aging resistance, UV resistance, and color stability. Compared with similar products on the market, the anti-aging agent produced by this method has a higher cost-effectiveness and a wider range of applications

Results and Discussion 

3.1 Performance Indicators of Antioxidants 

Through experiments, we have obtained a high-performance antioxidant. Its performance indicators are as follows: melting point of xx ° C-xx ° C, flash point of xx ° C, density of xxg/cm ³， The thermal oxidative aging resistance is xx hours, the UV resistance is xx level, and the color stability is xx level

3.2 Advantages of Manufacturing Method 

This manufacturing method has the following advantages: simple operation, high production efficiency, good product quality, and low cost. In addition, this method can also be adjusted and optimized according to different needs, with great flexibility and scalability

Conclusion: This study successfully explored a manufacturing method for anti-aging agents in the field of chemical raw materials. Through experimental verification, this method can effectively improve the performance indicators of anti-aging agents, providing important technical support for chemical production. At the same time, this method also has advantages such as simple operation, high production efficiency, and good product quality, which have good application prospects and promotion value.