[News & Trends]:What are the production methods and production processes of accelerators, and what are the commonly used raw materials

The manufacturing method of accelerators: Introduction: In the field of chemical raw materials, accelerators are an important additive that can improve the speed and efficiency of chemical reactions, thereby optimizing the production process. This article will introduce a manufacturing method for accelerators, aiming to improve production efficiency, reduce costs, and provide useful references for production in related fields


2、 Materials and Methods 


1 The raw materials required for this manufacturing method include organic acids, amine compounds, catalysts, and solvents


2. Equipment 


The required equipment for this manufacturing method includes: reactor, agitator, thermometer, condenser, filter, etc


3. Manufacturing method 


(1) Add organic acids and amine compounds in a certain proportion to the reactor, turn on the agitator, and fully mix the raw materials


(2) Heat the reaction kettle and control the temperature within a certain range to allow the raw materials to react and generate precursors for the promoter


(3) Add catalyst to the reaction vessel, continue stirring and heating to further react the precursor to generate the target promoter


(4) After the reaction is completed, cool the reaction solution to room temperature, separate the promoter product through a filter, and wash and dry with solvent


4. Analytical methods: characterized the structure of the promoter using infrared spectroscopy, nuclear magnetic resonance, and other analytical methods; Evaluate the thermal stability of the accelerator through methods such as thermogravimetric analysis and differential thermal analysis


3、 Results and Discussion 


1 The synthesis of promoters: Under appropriate temperature and catalyst action, organic acids and amine compounds react to form precursors of promoters, which further react to form the target promoter. By controlling the proportion of raw materials, reaction temperature, and the type and amount of catalyst, the synthesis effect of the promoter can be optimized


2. The performance of the promoter has been characterized by infrared spectroscopy, nuclear magnetic resonance and other analytical methods, confirming that the synthesized promoter has the expected structure and properties. The results of thermogravimetric analysis and differential thermal analysis indicate that the accelerator has good thermal stability and can meet the high temperature environmental requirements in the chemical production process


3. Advantages and limitations of manufacturing methods 


This manufacturing method has the advantages of easy access to raw materials, simple operation, and high production efficiency, and can be widely used in the preparation of promoters in the field of chemical raw materials. However, this method also has certain limitations, such as the selection of catalysts and harsh usage conditions, which require precise control of the reaction process


4、 Conclusion: This article introduces a manufacturing method for a promoter, which successfully synthesized a promoter with the expected structure and properties by controlling the proportion of raw materials, reaction temperature, and the type and amount of catalyst. This method has the advantages of easy access to raw materials, simple operation, and high production efficiency, providing a useful reference for the preparation of accelerators in the field of chemical raw materials. However, this method still has some limitations and needs further research and improvement.