Metal tool forgings have a wide range of applications in industry and daily life, such as pliers, screwdrivers, hammers and so on. These forgings not only need to have sufficient strength and durability, but also need to be good processability. Therefore, it is of great practical significance to study the mechanical properties of metal tool forgings and the optimization of manufacturing materials. The purpose of this paper is to discuss the function and significance, development history and present situation, existing problems and research purposes of metal tool forgings, as well as the optimization methods, results, discussion and conclusions of mechanical properties and manufacturing materials.
As an important industrial and civil product, metal tool forgings have been widely used and developed in the past decades. However, with the continuous progress of science and technology and the diversification of application fields, the traditional forging process and material selection has been difficult to meet the new requirements. Therefore, it is of great practical significance to carry out research on the mechanical properties and manufacturing materials optimization of metal tool forgings.
The main purpose of this paper is to discuss the mechanical properties of metal tool forgings and the optimization of manufacturing materials. Specifically, through literature review, experimental design, data analysis and other means, this study will analyze the factors that affect the mechanical properties of metal tool forgings, optimize the selection of manufacturing materials and its process route.
In terms of literature review, this paper will comprehensively review and comment on the development history, current situation and existing problems of hardware tool forgings, and deeply discuss the optimization value and method of mechanical properties and manufacturing materials. In terms of experimental design, this study will combine the results of literature review, and further explore the mechanical properties of metal tool forgings and the optimization of manufacturing materials by formulating scientific and reasonable experimental schemes.
The experimental results show that the mechanical properties of metal tool forgings are affected by many factors, such as material composition, heat treatment process, forging process, etc. By optimizing these factors, the strength, hardness and durability of forgings can be significantly improved. In addition, for different application areas and use requirements, the selection of appropriate manufacturing materials is also crucial.
In the discussion section, this paper will deeply analyze the research results and explain the internal mechanism of mechanical properties and manufacturing material optimization. At the same time, based on the comparison of international and domestic research status, the suggestions and prospects for the optimization of mechanical properties and manufacturing materials of metal tool forgings are put forward.
The results of this paper show that by optimizing the mechanical properties and manufacturing materials of metal tool forgings, the quality and performance of forgings can be significantly improved. Therefore, it is recommended that relevant enterprises and research institutions strengthen technology research and development and personnel training, and constantly improve the forging process and material selection level to meet the growing market demand and diversified application scenarios.
