Problems Existing in Warm Precision Forging Process and Process Improvement
From the current application of the warm precision forging process, the application value of the heat treatment process for some forgings is not reflecting fully. The application of the heating recrystallization technology cannot be consistent with the actual application requirements of the warm precision forging process. It is also difficult to obtain a clear crystallization temperature.
Under the circumstance, the application quality of the warm precision forging process can improve by heating. Some warm precision forging forming processes lack research on the development mileage. In the process of summarizing experience, the factors affecting warm precision forging forming are not sufficiently addressed. It is also impossible to effectively summarize the influencing factors of deformation resistance.
The effective control of the plastic value of the workpiece is not conducive to the construction of the plastic value of the warm precision forging process. Part of the warm precision forging forming process does not fully investigate the plastic deformation of the workpiece. It also lacks a summary of the deformation force characteristics and changing laws. This makes it difficult to clarify the relevant influence of oxidation during the specific application of this process.
It is difficult to fully and completely meet the needs of the processing and application of forging technology. It is also difficult to comprehensively meet the needs of innovative applications of workpiece forming technology with effects of factors like temperature are inaccurate.
The application of some warm precision forging processes also lacks effective analysis of the factors affecting the surface quality of the workpiece. The selection of molds has a low correlation with the performance of the workpiece. Therefore, the warm precision forging process may not meet the needs of mass production requirements in the new era.
Improvement Strategies of Warm Precision Forging Technology
In the process of formulating the application scheme of warm precision forging technology, pay enough attention to the application sequence of the technology. First, the forging production should be by means of heat treatment. Then, the crystallization temperature should be effectively controlled by means of gradual heating to ensure the right temperature.
The application of the precision forging process can realize the improvement of the forging process by means of technical adjustment. This helps the warm precision forging process to fully meet the needs of workpiece preparation.
In the process of warm precision forging process practice, summarizing the ideal forging temperature range is crucial. Formulate improved control measures for the plastic deformation scheme according to the forging resistance to deformation principle. This ensures that the strong oxidation properties of the forging can be obtained.
This will help the warm precision forging process to fully adapt to the workpiece forming control needs. The application of the warm precision forging forming process must realize the summary of the various effects of the oxidation work. The dimensional accuracy characteristics of the workpiece need investigation and analysis. With that, the technical limitations of the warm precision forging process can be clarified. It will also better adapt to forging multifaceted effects of temperature changes.
The application of the warm precision forging process must also strengthen the investigation and analysis of the changes in the temperature range. Most important are the characteristics of the die and forgings themselves. With that, the warm precision forging forming process can fully meet the actual application needs of forging equipment. It will then realize the forging process for high-level application of warm precision forging applications.