Petrochemical ring flange forging is an important equipment in petrochemical industry, and its forging process has an important influence on product quality and performance. The forging pressure is one of the key factors affecting the forging process, so it is of great significance to study the forging pressure distribution of petrochemical ring flange forgings for improving product quality and production efficiency. This paper will introduce the research on the forging pressure distribution of flange forgings of petrochemical ring parts, in order to provide reference for relevant people.
The research of forging pressure distribution is to measure and analyze the pressure distribution of petrochemical ring flange forgings in the forging process to understand the pressure distribution law and influencing factors, so as to optimize the forging process and improve the product quality.
Research method
Experimental design: design experimental scheme, including experimental equipment, experimental materials, experimental conditions, etc.
Experimental process: Conduct experimental operation, record experimental data, including pressure distribution, temperature change, material deformation, etc.
Data processing and analysis: processing and analysis of experimental data, including data sorting, chart drawing, statistical analysis, etc.
Research result
Pressure distribution law: Through experimental measurement and analysis, it is found that the pressure distribution of petrochemical ring flange forgings in the forging process has a certain regularity. In the forging process, the pressure is mainly concentrated on the edge and flange part of the flange ring, and the pressure is relatively small in the center area of the flange.
Pressure factors: Through the analysis of experimental data, it is found that the pressure distribution is affected by many factors, including heating temperature, mold structure, material properties and so on. Among them, the heating temperature has a greater influence on the pressure distribution, and the higher the temperature, the more uneven the pressure distribution.
Optimization suggestions: According to the experimental results and analysis, the optimization suggestions are put forward, including adjusting the heating temperature, improving the mold structure, selecting the appropriate material, etc. These suggestions are helpful to improve the forging quality and production efficiency of petrochemical ring flange forgings.
By studying the forging pressure distribution of petrochemicals ring flange forgings, the law of pressure distribution and influencing factors can be understood, which can provide basis for optimizing forging process and improving product quality. At the same time, the research is also helpful to promote the development and progress of the production technology of flange forgings for petrochemical ring parts.
