Material forming and control engineering specialty: it is an engineering specialty with forming technology as the means, materials as the processing object, process control as the quality assurance measure and product manufacturing as the purpose. It covers a variety of professional fields such as metal liquid forming, plastic forming, plastic forming, mold design and manufacturing. It is a comprehensive engineering technology subject focusing on materials science and engineering, mechanics, machinery, electronics, computer application and control technology.
The main courses of the professional training system include engineering mechanics, engineering drawing, mechanical design foundation, electrical and electronic technology, material science foundation, material forming principle, material forming test technology, CAD/CAM foundation and so on. Graduates of this major can engage in related product structure design, manufacturing process design, technology development, production management and so on. In machinery, automobile, electronics, communication, chemical industry, transportation, metallurgy, aerospace, energy, construction, light industry and other industries and fields. You can also engage in scientific research and teaching in institutions of higher learning.
Metal material engineering major: this major is trained to meet the needs of socialist modernization, with all-round development of morality, intelligence, physique and beauty, solid foundation, wide knowledge, strong ability, high quality, innovative spirit and international vision. Can be used in the fields of material science and engineering. In particular, senior engineers and technicians engaged in scientific research, technology and product development, engineering design, production management and other work in the fields of design, synthesis, preparation, structure and performance research, quality control, material surface engineering and other new materials such as high-performance metal materials, functional materials, composite materials, nano-materials and ceramic materials, and senior research talents with the foundation of new material research.
Inorganic non-metallic materials engineering major: Inorganic non-metallic materials engineering training has a solid theoretical foundation of materials science and engineering, and can engage in scientific research, technology and product development, engineering design, production management and other aspects of materials science and engineering, especially the design, synthesis and preparation, structure and performance, production technology and quality control of inorganic non-metallic materials.
Inorganic non-metallic materials engineering specialty involves the fields of material design, preparation technology, structure, performance and new materials of various inorganic non-metallic materials, and features the design, development and application research of new high-performance structural and functional ceramic materials, nano-materials, nano-devices and new energy materials. The main courses are inorganic chemistry, physical chemistry, materials science foundation, inorganic materials technology, powder engineering, materials engineering foundation, materials analysis and testing methods, materials physical properties and so on. Emphasis is placed on foreign languages, computers and humanistic literacy, and on the cultivation of scientific thinking and innovative ability. After graduation, students can engage in research, production, new product development, new technology development, teaching and related management of new special ceramics, nano-materials, new energy materials and products in institutions of higher learning, scientific research institutes and high-tech enterprises. This major has the right to award master's and doctoral degrees.
Powder material science and engineering major: it is to cultivate talents who have a solid theoretical foundation of material science and engineering and can engage in scientific research, technology and product development, engineering design, production management and other aspects in the field of material science and engineering, especially the design, synthesis and preparation, structure and performance, production technology and quality control of powder materials.
The major of powder materials science and engineering involves the fields of material design, preparation technology, structure, properties and new materials of various powder materials, and features the design, development and application research of new powder engineering materials such as new high-performance powder metallurgy materials, structural and functional ceramic materials. The main courses include inorganic chemistry, physical chemistry, analytical chemistry, materials science foundation, materials engineering foundation, powder preparation and testing, powder processing technology, powder metallurgy principle, powder metallurgy materials, material analysis and testing methods, etc. Emphasis is placed on foreign languages, computers and humanistic literacy, and on the cultivation of scientific thinking and innovative ability. After graduation, students can engage in research, production, development, teaching and related management of new materials and new products such as powder metallurgy and special ceramics in colleges and universities, scientific research institutes and high-tech enterprises, and also engage in related technical work in the fields of metal materials and material processing. This major has the right to award master's and doctoral degrees.
The major of new energy materials and devices is to cultivate students who meet the needs of the modernization of national strategic emerging industries, develop morally, intellectually, physically and aesthetically in an all-round way, have a solid foundation, have a wide range of knowledge, have innovative and entrepreneurial consciousness, competition and team spirit, and have good foreign language application ability. Can be engaged in scientific research, technology and product development, production process engineering design, quality control and production management in the field of materials science and engineering, especially in the fields of processing and preparation of new energy materials and devices, new energy vehicles, energy conservation and emission reduction.
In 20 10, "New Energy Materials and Devices Specialty" was approved as a national specialty, involving the design, preparation technology and technology, organization, structure and performance, application and other fields of various metallic and nonmetallic materials and devices related to new energy. Various high-performance solar battery materials, lithium-ion battery materials, fuel battery materials, special electrical and electronic materials and aerospace materials were produced from powder raw materials through advanced preparation technology and applied. The main courses include inorganic chemistry, physical chemistry, solid physics, materials science foundation, synthesis and preparation of inorganic materials, process principle of new energy devices, principle and process of lithium ion batteries, principle and process of solar cells, principle and process of fuel cells, material analysis and testing methods, etc. Emphasis is placed on foreign languages, computers and humanistic literacy, and on the cultivation of scientific thinking and innovative ability. This major has the right to award master's and doctor's degrees, with Post-Doctoral Research Center.