Engineering and metal material engineering are trained by specialty respectively. 20 14 Materials College enrolls students according to major categories. In the third semester, students are trained in different majors and directions according to their wishes and grades.
Materials science and engineering (inorganic nonmetallic materials) (materials)
This major mainly studies the relationship between the basic theory, composition, structure, performance and production conditions of inorganic nonmetallic materials and composite materials, and has the ability of material testing, production process design, material modification, new products, new technologies, equipment research and development and technical management.
Main courses: physical chemistry, properties of inorganic materials, materials science foundation, materials engineering foundation, testing and research methods, powder engineering, material preparation principle, thermal process and equipment, inorganic materials technology (including silicate and composite materials).
This major cultivates the knowledge of inorganic nonmetallic materials and their composites in science and engineering. After graduation, students can engage in scientific research, technology development, process and equipment design, production and management in the fields of structural research and analysis of inorganic nonmetallic materials, material preparation, material molding and processing. You can also work in material application enterprises and sales enterprises.
Materials Science and Engineering (Polymer Materials) (Materials)
This major trains senior engineers with basic theories and knowledge of polymer materials and engineering, who can engage in scientific research, technology development, process and equipment design, production and management in the fields of polymer materials synthesis, modification and processing.
Main courses: inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, polymer chemistry, polymer physics, polymer molding principle, polymer rheology, polymer surface and interface, polymer composite materials, polymer technology, polymer material experiment, plastic mold design, plastic machinery, etc.
After graduation, students can engage in teaching and scientific research in schools and scientific research institutions, and also engage in the preparation and modification of polymer materials, or engage in polymer material processing technology design, technology development, factory operation, technology management and scientific research in industries such as chemical industry, energy, environmental protection, materials, metallurgy, information, bioengineering, light industry, pharmacy, food and military industry.
Materials Science and Engineering (Metal Materials) (Materials)
Metal material engineering is the pillar of national economic construction and plays a vital role in aerospace, energy and chemical industry, national defense and military industry, metallurgy, electromechanical and other industries. This major trains students with knowledge of metal materials science and engineering.
Can be engaged in technical development, scientific research, process and equipment design, production and management knowledge and advanced engineering skills in metallurgy, material structure research and analysis, metal material preparation, metal material molding and other fields.
Technical talents.
Main courses: metallurgy, material thermodynamics, material analysis technology, metal materials science, heat treatment technology and equipment, material forming technology and equipment, surface modification of metal materials, and application of computer in material engineering.
After graduation, students can go to scientific research institutions, design institutes, large and medium-sized enterprises to engage in scientific research, technology development, design and manufacturing, production organization and management in the fields of material processing theory, molding technology and equipment design, metallurgical machinery, advanced material engineering, etc., and can also engage in corresponding teaching and research work in schools.
Material forming and control engineering (materials)
This major is trained to meet the needs of modernization in the 2 1 century, with all-round development in morality, intelligence and physique, strong patriotism, social responsibility, good engineering quality, professional ethics and humanistic quality and cultivation.
Natural science and mechanical engineering, material science, material forming process, design method and control theory of technology and equipment, etc. , with practical ability and innovative consciousness.
Technical talents.
Main courses: Engineering Mechanics, Fundamentals of Mechanical Design, Electrician and Electronic Technology, Principles and Applications of Microcomputer, Fundamentals of Material Science, Principles of Material Forming, Principles of Metallurgy and Heat Treatment, Fundamentals of Thermal Processing Technology, Thermal Processing Equipment and Design, Detection Technology and Control Engineering, Fundamentals of Material Forming CAD/CAM, etc.
After graduation, students can go to scientific research institutions, design institutes and large and medium-sized enterprises to engage in scientific research, technology development, design and manufacturing, production organization and management in the fields of material processing theory, automatic control of material forming process, design of forming technology and equipment, advanced material engineering, etc., and can also engage in corresponding teaching and scientific research work in schools.
Mineral processing engineering
This major is a national characteristic major and a pilot major of the National Excellent Engineer Education and Training Program, covering two training modes of mineral processing engineering and mineral processing engineering (excellent engineer). This major has joined the "Excellent Undergraduate International Exchange Program" of the National Fund for Studying Abroad. From 20 14, outstanding undergraduates can apply for studying abroad at public expense.
Mineral processing engineering aims at cultivating all-round development of morality, intelligence and physique, receiving basic training in experimental skills, engineering practice, computer application, scientific research and engineering design methods related to mineral processing engineering specialty, and mastering the comprehensive application of learned theoretical knowledge.
The basic ability to understand and analyze practical problems in mineral processing, the preliminary ability to carry out technological innovation and research on new technologies and new processes, the ability to organize production and technical and economic management.
Main courses: organic chemistry, physical chemistry, chemical engineering principles and experiments, fluid mechanics, mechanical design basis, mineral processing, electrical engineering, mineral processing detection technology, mineral processing automation and control technology, computer application, mineral processing technology design, technical economics, comprehensive utilization technology of mineral resources, combustion engineering, clean coal technology, etc.
Mineral processing engineering (excellent engineer)
The 3+1 joint training mode, which includes three years of theoretical study and1year enterprise engineering practice, aims to cultivate engineering and technical personnel with professional knowledge and application ability of mineral processing, who can engage in process design, scientific and technological development, operation management and trade in the field of mineral processing engineering, and have high comprehensive quality, innovation ability, team spirit and professional technology.
Main courses: inorganic chemistry, organic chemistry, physical chemistry, analytical chemistry, mineral petrology, mineral processing, coal chemical engineering and experiments, mineral processing machinery, mineral processing technology design, nonmetallic mineral processing, comprehensive utilization of mineral resources, experimental research methods, case analysis of mineral processing practice, post practice, electrical equipment and automation training in mineral processing plants, and on-site graduation design of mineral processing engineering.
After graduation, students can engage in the production, design, scientific research and development, technological transformation and management of minerals (including coal, metallic and nonmetallic minerals, secondary minerals, etc.). ) Engaged in teaching and scientific research in mining enterprises and institutions, as well as in educational and scientific research institutions.
Chemical engineering and technology specialty
This major trains students to master the basic theories and knowledge of chemical engineering and chemical technology, and receive basic training in chemistry and chemical experiment skills, engineering practice, computer application, scientific research and engineering design methods.
Practitioners and engineers with the ability to simulate and optimize the modern production process, carry out technical transformation on modern chemical production processes and equipment, and develop and design new chemical products, processes and equipment.
Main courses: inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, chemical drawing, chemical engineering principle, chemical reaction engineering, chemical thermodynamics, chemical technology, chemical instrument and automation, chemical design, coal chemical industry, coal chemical technology, carbon-1 chemistry, combustion engineering, clean coal technology, chemical computer-aided design, etc.
After graduation, students can engage in teaching and scientific research in schools and scientific research institutions, or engage in engineering design, technology development, factory operation and technology management and scientific research in chemical industry, energy, environmental protection, materials, metallurgy, information, biological engineering, light industry, pharmacy, food, military industry and other industries, or engage in related work in finance, market, commodity inspection, foreign trade, customs and government agencies.