Extended data:
TS stands for industrial technology: this is a big category, covering many disciplines related to industrial production and technological development. TS274. 1 is one of the subclasses, which is specially divided in the field of metallurgical engineering.
274 stands for metallurgical engineering: this classification number further subdivides the field of iron and steel metallurgy, including iron and steel metallurgy principle, iron and steel smelting technology, iron and steel materials science, etc. These disciplines have become the core knowledge system of metallurgical engineering.
1 stands for iron and steel metallurgical principle: this is a more specific subclass, which specifically divides the basic principles and key technologies in the iron and steel metallurgical process. The principle of iron and steel metallurgy involves many links, such as ore mining, preparation of iron and steel raw materials, iron and steel smelting, steel product processing and so on, covering many disciplines such as physics, chemistry, mechanics and engineering thermophysics.
The core content of iron and steel metallurgy principle: including iron ore metallurgy, steelmaking principle, ironmaking principle, rolling principle, metallurgical basis, metallurgical physical chemistry, metallurgical engineering thermodynamics and dynamics, etc. These contents are the basic theoretical and practical basis in the field of iron and steel metallurgy, and provide key technical support for the development of iron and steel industry.
Application field of iron and steel metallurgy principle: Iron and steel metallurgy principle not only plays an important role in traditional iron and steel production enterprises, but also is closely related to modern material science, new energy, environmental protection and other fields. For example, the research and practice of green production, low-carbon metallurgy and waste resource utilization in iron and steel plants are closely related to the principle of iron and steel metallurgy.
Development trend of iron and steel metallurgical principles: With the transformation and upgrading of the global iron and steel industry, the iron and steel metallurgical principles are constantly developing and innovating. For example, the combination of advanced technologies such as artificial intelligence, big data and cloud computing with steel metallurgy is expected to realize intelligent, green and efficient steel production.
Where TS stands for industrial technology and 274.438+0 stands for metallurgical engineering. This classification number indicates that the books on iron and steel metallurgical principles mainly involve knowledge in metallurgical engineering.
However, it should be noted that due to the different classification systems of publishers, bookstores or libraries, the specific classification numbers may be different. When searching for related books, it is suggested to select the appropriate classification number according to the actual situation.