1. Metallurgical physical chemistry.
Metallurgical physical chemistry is an important part of the discipline of metallurgical engineering, which mainly studies the smelting principles, processes and processes of steel and non-ferrous metals, and involves a wide range of fields. The research content of this direction mainly includes the physical and chemical properties of metals and alloys and the changes in the smelting process, as well as the knowledge of energy and environmental protection.
Postgraduate subjects: This direction mainly examines students' basic knowledge of physical chemistry, such as the principle of chemical reactions, physical chemistry experiments, etc. At the same time, students are also required to have good experimental operation and data analysis skills to adapt to the experimental and research needs of this direction.
Career prospects: Graduates of this direction can be engaged in research and development, technical consulting and technical services in steel, non-ferrous metals and other enterprises, as well as teaching and scientific research in universities and scientific research institutions. With the continuous improvement of the country's attention to environmental protection and energy, the demand for talents in the field of metallurgical physics and chemistry is also increasing.
2. Iron and steel metallurgy.
Iron and steel metallurgy is an important branch of metallurgical engineering, which mainly studies the technology and process of steel smelting, rolling and processing. The research content in this direction mainly includes the technology and process of beneficiation, sintering, blast furnace ironmaking, converter steelmaking, rolling and other resources of iron ore, steel ore, scrap iron and steel and other resources.
Postgraduate subjects: This direction mainly examines the basic knowledge of iron and steel metallurgy, such as iron-making, steel-making, etc. At the same time, students are also required to have good experimental operation and technical practice ability to adapt to the experimental and research needs of this direction.
Career prospects: Graduates of this direction can work in technology research and development, production management, quality control and other aspects in iron and steel enterprises, as well as in design and technical consulting in steel design institutes and engineering companies. With the continuous development of China's iron and steel industry, the demand for talents in the field of iron and steel metallurgy is also increasing.
3. Non-ferrous metal metallurgy.
Non-ferrous metallurgy is an important branch of metallurgical engineering, which mainly studies the technology and process of smelting, purification and processing of non-ferrous metals such as copper, aluminum, zinc and tin. The research content in this direction mainly includes the technology and process of non-ferrous metal beneficiation, smelting, electrolysis, refining, etc.
Postgraduate subjects: This direction mainly examines students' basic knowledge of non-ferrous metal metallurgy, such as copper metallurgy, aluminum metallurgy, etc. At the same time, students are also required to have good experimental operation and technical practice ability to adapt to the experimental and research needs of this direction.
Career prospects: Graduates of this direction can be engaged in technology research and development, production management, quality control and other aspects in non-ferrous metal enterprises such as copper, aluminum, zinc, etc., as well as in non-ferrous metal design institutes and engineering companies in design and technical consulting. With the continuous development of China's non-ferrous metal industry, the demand for talents in the field of non-ferrous metal metallurgy is also increasing.