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Time:14months ago
Source:Transform the World with Simplicity
antioxidant manufacturing method: chemical production of raw materials in the field of research
abstract
this paper introduces a kind of in the field of chemical production of raw materials, on the antioxidant manufacturing method. The 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 index of antioxidant, and provide important technical support for chemical production.
keywords: chemical production raw materials, antioxidants, manufacturing methods
introduction
with the rapid development of the chemical industry, all kinds of chemical products in the production, storage, transportation and use process, often subject to heat, oxygen, light and other factors and aging phenomenon. In order to prolong the service life of chemical products and improve their stability, the application of antioxidant is more and more extensive. Therefore, it is of great significance to study the manufacturing method of antioxidant for improving the quality and yield of chemical products.
Experimental Part
2.1 Experimental Raw Material
The raw materials required for this experiment include: styrene, acrylic acid, benzoyl peroxide, antioxidants, etc.
2.2 experimental equipment The main equipment required for
experiments include: reaction kettle, stirrer, thermometer, condenser, etc.
2.3 Experimental Steps
(1) Styrene and acrylic acid are added into a reaction kettle according to a certain proportion, the stirrer is turned on, and heated to a certain temperature.
(2) Benzoyl peroxide was added as an initiator to initiate the polymerization reaction.
(3) After reacting for a certain period of time, an antioxidant is added and the reaction is continued for a period of time. After the reaction of the
(4), post-treatment is carried out, including cooling, filtration, washing, drying and the like, to obtain the antioxidant product.
2.4 experimental results and analytical
Through the above steps, we successfully synthesized the antioxidant. By testing the performance index of the product, it is found that it has good thermal and oxidative aging resistance, UV resistance and color stability. Compared with similar products on the market, the antioxidant prepared by this method has a higher cost performance and a wider range of applications.
results and discussion
the performance index
of 3.1 anti-aging agent Through the experiment, we have obtained the excellent anti-aging agent. Its performance indexes are as follows: melting point is xx ° C- xx °C, flash point is xx °C, density is xxg/cm, thermal oxygen aging resistance is xx hours, UV resistance is xx grade, and color stability is xx grade.
The advantages of the 3.2 manufacturing method
The manufacturing method has the following advantages: simple operation, high production efficiency, good product quality, and low cost. In addition, the method can be adjusted and optimized according to different needs, and has great flexibility and scalability.
conclusion
This study successfully explored a method of manufacturing antioxidants in the field of raw materials for chemical production. Through experimental verification, this method can effectively improve the performance index of antioxidant, and provide important technical support for chemical production. At the same time, the method also has the advantages of simple operation, high production efficiency and good product quality, and has a good application prospect and promotion value.