When you stand at the crossroads of the university, a world full of challenges and opportunities unfolds in front of you. For those students who are fond of material forming and control engineering, the postgraduate entrance examination is undoubtedly an important choice to deepen their professional knowledge and improve their self-ability. So, in this professional field, what direction can we pursue?Next, let's explore the mysteries of the postgraduate entrance examination of material forming and control engineering
Metal materials, as the cornerstone of human civilization, have always carried the heavy responsibility of scientific and technological progress. In this direction, you will delve into the intrinsic properties of metallic materials, their microstructure, and their forming processes under various conditions.
1.Fundamentals of Metal MaterialsExplore the inner world of metals and learn about their atomic arrangement, crystal structure, and how these microscopic properties affect the material's macroscopic properties.
2.Metal forming processMaster metal forming techniques such as casting, forging, and welding, and learn how to shape metal materials into desired shapes through these processes.
3.Metal material controlResearch on how to control the properties of metal materials through heat treatment, alloying and other means to meet the needs of different engineering applications.
With the development of science and technology, non-metallic materials are more and more widely used in various fields. This direction mainly studies the molding process and control technology of non-metallic materials such as plastics, rubber, ceramics, etc.
1.Fundamentals of Non-Metallic MaterialsUnderstand the composition, structure, and similarities and differences between non-metallic materials and metallic materials.
2.Non-metallic forming processExplore non-metallic molding technologies such as injection molding, extrusion, and blow molding, and learn how to manufacture non-metallic products efficiently and accurately.
3.Non-metallic material controlIn order to improve the performance and application range of non-metallic materials, such as the use of additives and the preparation of composite materials, the performance and application range of non-metallic materials are studied.
The rapid development of digital technology has brought revolutionary changes to the field of material molding. In this pathway, you will learn how to design and control material forming using digital tools such as computer-aided design (CAD) and computer-aided manufacturing (CAM).
1.Digital technology foundationMaster the basic operation of CAD, CAM and other software, and learn how to use these tools to simulate product design and manufacturing processes.
2.Digital material moldingStudy digital molding technologies such as 3D printing and laser processing to understand how these technologies enable the process of transforming virtual designs into physical products.
3.Digital material controlLearn how to use sensors, IoT, and other technologies to monitor and adjust the material molding process in real time for efficient and intelligent production.
The increasing awareness of environmental protection has made the research and development and application of environmentally friendly materials a hot spot. This direction mainly studies how to achieve environmental protection goals such as energy saving, emission reduction, and resource recycling in the process of material molding.
1.Fundamentals of Environmentally Friendly Materials ScienceLearn about the types and properties of environmentally friendly materials and their advantages and challenges in real-world applications.
2.Environmentally-friendly molding processExplore how to introduce environmental protection concepts and technological innovations on the basis of traditional molding processes to reduce energy consumption and emissions in the production process.
3.Environmentally friendly material controlResearch on how to evaluate and optimize the environmental performance of materials through life cycle assessment (LCA) and other methods, so as to promote the wide application of environmentally friendly materials in more fields.
Dear friends, the above are the four major postgraduate examination directions of material forming and control engineering. No matter which path you choose to further your studies, you will embark on a journey full of challenges and rewards. May you go further and further on this professional path and eventually become the best in your field!
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