The majors and courses of material science and engineering mainly include physical chemistry, quantum and statistical mechanics, solid physics, introduction to material science, basic material physics, material chemistry, material mechanics, research methods of material science, material technology and equipment, and the application of computers in material science.
Students majoring in materials science and engineering mainly study the basic theories of materials science and engineering, and learn and master the basic laws of the relationship between the preparation, composition, organizational structure and properties of materials. Basic training in preparation, performance analysis and testing skills of metal materials, inorganic nonmetallic materials, polymer materials, composite materials and various advanced materials.
Professional training objectives: Material Science and Engineering majors cultivate high-level, high-quality and all-round scientific and engineering talents who have extensive basic knowledge of science and engineering such as metal materials, inorganic nonmetallic materials and polymer materials, and can engage in scientific research and teaching, technology development, process and equipment design in the fields of preparation, processing and molding of various materials, and adapt to the development of socialist market economy.
Professional training requirements: students majoring in materials science and engineering mainly study the basic theories of materials science and engineering, and learn and master the basic laws of the relationship between the preparation, composition, organizational structure and properties of materials. Master the basic ability of material design and preparation process design, improve material performance and product quality, and develop new materials and new processes.
Main subjects: materials science and engineering, chemistry, physics.
Main courses: physical chemistry, quantum and statistical mechanics, solid physics, introduction to material science, foundation of material science, material physics, material chemistry, material mechanics, research methods of material science, material technology and equipment, and application of computer in material science.
Main practical teaching links: including professional experiment, metalworking practice, electrical and electronic practice, cognitive practice, production practice, curriculum design and graduation design (thesis).