The college includes two first-class disciplines: materials science and engineering and metallurgical engineering. The first-level discipline of materials science and engineering has a postdoctoral mobile station, a first-level discipline doctoral program and a first-level discipline master program (including three two disciplines of materials processing engineering, materials science, materials physics and chemistry), and the field of materials engineering has the right to award master's degrees in engineering. Material processing engineering is a national key discipline, material science is a key discipline in Shanxi Province, material physics and chemistry is a key construction discipline in Shanxi Province, metallurgical engineering is a first-class master's degree program, and there are the Ministry of Education of New Material Interface Science and Engineering, Shanxi Key Laboratory, and Shanxi Iron and Steel Material Postgraduate Education Innovation Center. In recent years, the College has undertaken more than 0/00 national and provincial basic research, applied research and industrial development research projects, such as the National "973" Project, the National "863" Project, major research projects of the National Natural Science Foundation, general projects, international cooperation projects and key projects of Shanxi Province. Won the second prize of national technological invention 1 item, 2 first prizes of provincial and ministerial level scientific and technological progress, 5 second prizes and 4 third prizes; He has published 26 books (teaching materials) and authorized 86 national invention patents. Published more than 700 academic papers, of which more than 400 were included by Sci and EI.

● Material Forming and Control Engineering

Training objectives: This major aims to cultivate innovative scientific research-oriented or engineering technology and management-oriented senior talents who can meet the needs of national economic construction in the 2nd/Kloc-0th century, develop morally, intellectually, physically and aesthetically in an all-round way, and can conduct scientific research, technology development, design and manufacture, production organization and management and sales in the fields of material processing theory, material molding process design and advanced material engineering.

Training requirements: the trained students have extensive knowledge of nature, humanities and society, high foreign language level and computer application ability; Have the necessary professional knowledge in the fields of casting, plastic forming, material connection, mold design and manufacturing, and the ability to skillfully solve engineering problems and innovate, and complete the basic training of modern mechanical or material engineers through practical teaching. There are three major directions in this major, namely, metal liquid forming direction, plastic forming direction, welding technology direction and engineering direction.

Main courses: theoretical mechanics, material mechanics, mechanical principles, mechanical design, electrical and electronic technology, computer technology foundation, material science foundation, material forming foundation, material mechanical properties, modern testing methods of materials, and professional direction module courses.

Main practical teaching links: military training, engineering training practice, course design of mechanical parts, professional course design, computer application and computer practice, production practice, graduation practice, graduation design (thesis), social practice, etc.

Degree awarded: Bachelor of Engineering.

Length of study: four years.

● Metal material engineering

Training objectives: This major aims to train senior professionals who can meet the needs of social economy, science and technology and industrial production, develop morally, intellectually, physically and aesthetically, have basic knowledge and skills of metal materials engineering, and can engage in research, composition-process and equipment design, organization and performance inspection, manufacturing, technology development and management of metal materials and metal matrix composites in production enterprises, universities or research institutes.

Training requirements: Students in this major mainly study the basic theory and related knowledge of metal materials science and engineering, understand the basic laws of the relationship between the composition, organizational structure, production technology and performance or service behavior of metal materials, receive basic training in material preparation, performance analysis and testing skills, master the basic methods of metal material design, preparation and process control, and have the knowledge and ability to carry out metal material design and production, performance optimization and new material development.

Main courses: Introduction to Materials Science, Physical Chemistry of Materials, Fundamentals of Materials Science, Fundamentals of Materials Engineering, Metal Physics, Material Properties, Metal Materials Science, Principles and Techniques of Heat Treatment, Corrosion and Protection of Metals, Heat Treatment Equipment and Instruments, Amorphous Alloys, Modern Analysis Methods of Materials, and Application of Computers in Materials Science.

Main practical teaching links: military training, metalworking practice, production practice, graduation practice, social practice, curriculum design, computer application and computer practice, graduation design (thesis) and so on.

Degree awarded: Bachelor of Engineering.

Length of study: four years.

● Inorganic nonmetallic material engineering

Training objectives: This major trains senior engineering and technical personnel with knowledge of inorganic nonmetallic materials and their composites in science and engineering, who can engage in scientific research, technology development, equipment and production line design, production organization and management in the fields of inorganic nonmetallic materials design, preparation, processing and modification and engineering application.

Training requirements: Students in this major mainly study the basic theory, formula design, process optimization, structure and performance characterization of inorganic nonmetals and their composites, as well as the relevant knowledge of professional equipment. They are required to master the basic scientific principles and skills of the composition, structure, production technology and equipment of inorganic nonmetals and their composite materials, and master the "production technology [? ] microstructure [? ] performance ". Master the basic knowledge of mechanical, electrical and computer applications necessary for this major; With the preliminary ability of product and process design, industrial production, analysis and testing, quality control and technical management of inorganic non-metallic materials and their products; Have the preliminary ability to study and improve material properties and develop new materials.

Main courses: inorganic chemistry, physical chemistry, powder engineering, inorganic materials science foundation, inorganic materials technology, inorganic materials production machinery and equipment, inorganic materials industrial thermal foundation and equipment, inorganic materials testing methods, ceramic materials, etc.

Main practical teaching links: military training, metalworking practice, cognitive practice, production practice, graduation practice, professional experiment, computer application and computer practice, curriculum design, graduation design (thesis) and so on.

Degree awarded: Bachelor of Engineering.

Length of study: four years.

● Metallurgical engineering

Training objective: Metallurgical engineering is a subject to study the extraction of metals or oxides from ores and their processing and application. This major trains senior engineering management talents with professional knowledge of metallurgy, physical chemistry, steel metallurgy and nonferrous metallurgy, who can engage in production, design, scientific research and management in metallurgy and related fields.

Training requirements: To train students with basic knowledge and skills in metallurgical engineering theory, production technology and equipment, experimental research, metallurgical process design, environmental protection and comprehensive utilization of resources, as well as the ability to develop new technologies, new processes and new materials and organize and manage industrial design and production.

Main courses: metallurgical physical chemistry, metallurgical principle, metallurgical transmission principle, metallurgy and heat treatment, thermal instrumentation and its automation, steel metallurgy, nonferrous metallurgy, metal plastic processing, experimental research methods, metallurgical engineering design.

Main practical teaching links: military training, metalworking practice, cognitive practice, production practice, professional experiment, curriculum design, graduation practice, graduation design (thesis) and so on.

Degree awarded: Bachelor of Engineering.

Study time: four years

● Polymer materials and engineering

Training objectives: This major trains senior professionals with professional knowledge of polymer materials and engineering, who can engage in scientific research, technology development, process equipment design, production management and operation in the fields of polymer materials design, synthesis, modification and molding.

Training requirements: graduates are required to master the design, synthesis and modification methods of polymer materials, master the basic theories and skills of polymer processing rheology, molding technology and molding die design, understand the composition, structure and performance relationship of polymer materials, have the ability to research, design and analyze polymer materials, develop new polymer materials and new products, and have the preliminary ability to conduct technical and economic analysis and management of polymer material modification processing technology.

Main courses: organic chemistry, physical chemistry, polymer chemistry, polymer physics, introduction to polymer materials, polymer rheology, plastic molding dies, plastic processing AIDS, plastic (rubber) molding technology, polymer molding processing principles, polymer research methods, polymer modification, coating technology, etc.

Main practical teaching links: military training, metalworking practice, cognitive practice, production practice, graduation practice, professional experiment, computer application and computer practice, curriculum design, graduation design (thesis) and so on.

Degree awarded: Bachelor of Engineering.

Length of study: four years.

● materials physics

Training objectives: The training system should master the basic theories and technologies in materials science and physics, have the basic knowledge and skills related to materials physics, be able to engage in scientific research, technology development, process equipment design and technical transformation in the design, preparation, structure and performance evaluation and application of advanced functional materials, and adapt to the high-level, high-quality and all-round development of social economy.

Training requirements: Students in this major mainly study the basic theories, knowledge and skills in materials science and physics, and train in scientific thinking and scientific experiments. They are required to master the preparation technology, new physical effects, structure and performance evaluation and application of various advanced functional materials, and have the basic ability to research and develop functional materials by using the basic theories, knowledge and experimental skills of physics and materials physics. My main interests are thin film materials and photoelectric materials. Graduates should have the following knowledge and abilities:

1. Master the basic theory, knowledge and experimental skills of materials and physics;

2. Master the basic knowledge, basic principles and basic experimental skills of preparation technology, new physical effects, structure and performance evaluation and application of various advanced functional materials;

3. Familiar with the design, preparation, structure and performance evaluation and application of thin film materials and photoelectric materials, taking into account the relevant principles and knowledge of new materials;

4. Understand the theoretical frontier, application prospect and latest development trends of material physics;

5. Have certain self-study ability, ability to analyze and solve problems, innovative consciousness and high comprehensive quality.

Main courses: quantum mechanics, solid state physics, statistical physics, atomic physics, material physics, material science foundation, modern analysis methods of materials, etc.

Main practical teaching links: military training, computer training, metalworking practice, production practice, graduation practice, material engineering design, graduation design (thesis) and so on.

Degree awarded: Bachelor of Science.

Length of study: four years.

● Material chemistry

Training objectives: To train senior professionals who systematically master the basic theories, knowledge and skills of materials science and chemistry, master the experimental skills and methods of corrosion and protection, microstructure characterization and performance testing of materials, apply the basic theories, knowledge and experimental skills of materials science and chemistry, and engage in scientific research, teaching, scientific and technological development and related management in materials science and engineering and related fields.

Training requirements: students are required to master the basic theories, knowledge and methods of material science and chemistry; Understand the development trend of materials science; I have received the training of scientific experiments in three aspects: material preparation (synthesis), material characterization and material properties, and obtained the preliminary scientific research training, and have the ability to engage in material research and application design. To lay a knowledge foundation for further development and cultivate materials science and engineering talents with independent problem-solving and scientific research ability. Graduates should have the following knowledge and abilities:

1. Master the basic theories, knowledge and experimental skills of materials, physics and chemistry;

2 master the basic knowledge, basic principles and basic experimental skills of material preparation (or synthesis), material processing, material structure and performance measurement;

3. Be familiar with the corrosion and protection of materials, taking into account the relevant principles and knowledge of new energy materials;

4. Understand the theoretical frontier, application prospect and latest development trends of material chemistry;

5. Have certain self-study ability, ability to analyze and solve problems, innovative consciousness and high comprehensive quality.

Main courses: inorganic chemistry, organic chemistry, physical chemistry of materials, structural chemistry, material science foundation, material chemistry, material corrosion and protection, modern analysis methods of materials, material failure analysis technology, etc.

Main practical teaching links: military training, computer training, metalworking practice, production practice, graduation practice, material engineering design, graduation design (thesis) and so on.

Degree awarded: Bachelor of Science.

Length of study: four years. The college has continuously enhanced its ability of scientific research and serving the society, and undertaken more than 60 national, provincial and ministerial basic research, applied basic research and industrial development research projects, including the national "973" plan project, the international cooperation project of the Ministry of Science and Technology, major research projects of the National Natural Science Foundation, general projects of the National Natural Science Foundation and international cooperation projects, with research funding of 20 million yuan. From 2005 to 2009, more than 700 academic papers were published, of which 360 were included by EI and SCI. Won the second prize of national technological invention 1, the first prize of Shanxi technological invention 1, the second prize of Shanxi scientific and technological progress 5, and the third prize of Shanxi scientific and technological progress 4; Publish editing teaching materials 18 volumes; Authorized 55 invention patents. The College attaches great importance to foreign cooperation and exchanges, and has established long-term friendly cooperative relations with first-class universities and research institutes at home and abroad such as China Academy of Sciences, Tsinghua University, Tokyo University, Hokkaido University and Nagoya University, as well as first-class enterprises such as Taiyuan Iron and Steel Group and Foxconn Science and Technology Group, which has created favorable conditions for cultivating high-quality talents.