The Department of Material Forming and Control, formerly known as the Metal Pressure Processing Specialty of East China Institute of Metallurgy, was established in June 1977, and enrolled undergraduates. It is one of the earliest majors of Maanshan Iron and Steel Institute. After more than 20 years of construction, this major has gradually formed two modules, namely, rolling and die design, covering three directions: rolling, non-ferrous metal processing and die design. Among them, the characteristics of rolling direction make up the blank of this major in East China. Since its establishment, the major of Material Forming and Control has paid attention to introducing key teachers from brother colleges, factories, design institutes and other units, so that teachers who have been engaged in higher metallurgical education for a long time and those who have rich experience in production and design can complement and promote each other, thus forming a team of professional teachers with a certain academic level and can solve practical production. 17 Among the in-service teachers, there are 5 professors and 8 associate professors. 90% of the teachers have doctorates and master's degrees, and 1 was rated as the academic leader in Anhui Province. This major has a master's degree in material processing engineering; Has the key laboratory of Anhui Province; In 2002, it was listed as a key discipline in Anhui Province. Completed a large number of scientific research projects including the National 863 Project. Over the past 20 years, more than 500 undergraduates and masters have been sent to scientific research institutes, universities, factories and mines, and the employment rate is 1.000%. Training objective: to train senior engineering and technical personnel who are adapted to the needs of the socialist market economy, have all-round development in morality, intelligence and physique, have a solid foundation and a wide range of specialties, have basic knowledge and application ability of material forming, and can engage in design, scientific research, technology development, production process control and management in the field of material forming. Professional direction: 1. Metal rolling II. Training requirements for non-ferrous metal processing and die design: Students in this major mainly study material science, mechanical engineering, material forming theory and technology and related design theories and methods, and are basically trained by modern engineers, with the ability to engage in material forming technology and die design, equipment use and control, scientific research and production organization and management. Main courses: engineering mechanics, basic mechanical design, electrical and electronic technology, microcomputer principle and application, metal forming theory, metal plastic processing (rolling engineering, extrusion and drawing, stamping technology), plastic processing equipment, mold CAD/CAM and related mold design, testing technology, computer simulation of plastic forming, material forming process control, card, etc.

Major in Metal Material Engineering:

Metal material specialty is one of the earliest majors enrolled in our school, with two master's degree authorization points: material processing engineering and material science. It has not only advanced teaching laboratories, but also key laboratories for new metal materials. This major has a wide range of students and graduation distribution, which can be scientific research institutes, universities, factories, mines, companies and so on. So far, a large number of undergraduates and postgraduates have been trained, and a large number of graduates have made outstanding contributions in all walks of life. There are 6 professors and 6 associate professors in this discipline. Among them, there are 7 doctors and 5 masters. The main research directions are: microstructure and performance control of metal materials, new generation steel materials, laser surface engineering, new energy materials, computational materials science, material structure analysis, etc. We have completed and undertaken more than 40 international cooperation projects of the National Natural Science Foundation, the State Economic and Trade Commission, China and South Korea, natural science foundation projects of Anhui Province, and scientific research projects of large and medium-sized enterprises in Baosteel, Maanshan Iron and Steel Co., Ltd., Nangang and Jigang. More than 500 papers have been published in academic journals at home and abroad, and nearly 50 papers have been included in international retrieval SCI and EI. Training objectives: This major aims to train practical senior engineering talents with knowledge of metal materials science and engineering, including metal materials (structural materials and functional materials), heat treatment, welding technology and equipment, who can engage in production, management, process and equipment design, technology development and scientific research in metallurgy, material structure analysis, material preparation and synthesis, metal material hot working engineering and other fields. Specialty direction: Metal materials and metal materials processing (heat treatment, welding and casting) Training requirements: Students in this major mainly study the basic theory of materials science and master the basic laws of the relationship between the composition, organizational structure, production technology, environment and performance of metal materials. Through composition design and process design, the performance, quality and life of materials are improved, and new materials and processes are developed. Main courses: physical chemistry of materials, basic materials science, mechanical properties of materials, material analysis methods, metal materials science, material heat treatment, material preparation and synthesis, welding metallurgy, welding technology and equipment, computational materials science, etc.

material science

Material science is an applied basic discipline to study the relationship among chemical composition, microstructure, technology, properties and properties of materials. Its main task is to provide scientific basis for material design, manufacturing, process optimization and rational use of materials. Research direction: 1. Development of advanced metal materials and surface modification of traditional materials II. New energy materials. Magnetic material 4. Design and calculation of materials. Advanced inorganic materials. Advanced preparation technology of nano-materials.

material processing

Material processing engineering is an applied basic discipline to study the relationship between material preparation, forming technology, forming process control method and material structure and properties, forming equipment and its control basis. Its task is to provide scientific basis for material preparation, processing and production, forming process optimization and the development of new material processing technology, equipment and control methods. Research direction: 1. Microstructure and properties control of metallic materials II. Laser surface engineering iii. Computational materials science and engineering iv. Energy materials and engineering. Engineering and theory of metal plastic working. Simulation and simulation of material processing. Theory and application of mold optimization design.

Inorganic non-metallic materials engineering major:

Training objective: to train senior engineering and technical personnel who are adapted to the needs of socialist market economy, have all-round development in morality, intelligence and physique, have a solid foundation and a wide range of specialties, have basic knowledge and application ability of inorganic nonmetallic materials, and can engage in the production, design, research and development, operation and management of inorganic nonmetallic materials. Professional direction: 1. Cement and new building materials. Cultivation requirements of ceramics and new refractory materials: This major mainly studies the composition, structure and properties of inorganic nonmetallic materials (ceramics, cement, refractory materials and other traditional and new inorganic nonmetallic materials) and the basic theories, characteristics and laws of preparation technology. This major pays attention to the cultivation of students' all-round quality, with wide professional knowledge and strong adaptability. Graduates can engage in research, design, technical transformation and new material development of inorganic nonmetallic materials for scientific research, design units and on-site enterprises. Main courses: physical chemistry, materials science foundation, engineering mechanics, mechanical properties of materials, mechanical design foundation, physical properties of inorganic materials, material analysis methods, thermal theory foundation and equipment, powder engineering and equipment, inorganic non-metallic materials technology, etc.

Materials physics:

Training objectives: This major trains senior professionals in materials physics who have mastered the basic theory and technology of materials science, have the basic knowledge and skills related to materials physics, and can engage in research, teaching, scientific and technological development and related management in materials science and engineering and related fields. Professional direction: 1. Cement and new building materials. Requirements for the cultivation of ceramics and new refractories: Students in this major mainly study the basic theories, knowledge and skills of materials science, receive the basic training of scientific thinking and scientific experiments, and have the basic ability to use the basic theories, knowledge and experimental skills of physics and materials physics for material research and technical development. Graduates should acquire the following knowledge and abilities: 1. Master the basic theories and knowledge of mathematics, physics and chemistry; 2. Master the basic knowledge, basic principles and basic experimental skills in material preparation (or synthesis), material processing, material structure and performance measurement, and material application; 3. Understand the general principles and knowledge of similar majors; 4. Familiar with national policies on materials science and engineering research, scientific and technological development and related industries, as well as domestic and foreign intellectual property laws and regulations; 5. Understand materials physics's theoretical frontier, application prospect and latest development trends, as well as the development of materials science and engineering industry; 6. Master the basic methods of information inquiry, literature retrieval in Chinese and foreign languages and obtaining relevant information by using modern information technology; Have the ability to design experiments, create experimental conditions, summarize, sort out and analyze experimental results, write papers and participate in academic exchanges. Specialty direction: main courses of functional materials: basic physics, solid physics, materials science foundation, materials physics, functional materials, computational materials science, etc.