1. Materials Science and Engineering |
The students are systematically trained from the aspects of basic theory, frontier professional knowledge and scientific research experimental skills of material science and engineering major, so that students can become high-quality scientific and technological talents with comprehensive basic knowledge and research and development ability of high-tech materials in material science and engineering major. The students not only have the comprehensive ability of scientific research, new material design and development, teaching and technology management in this subject and related fields, but also have strong innovation consciousness, certain organization and management ability and team leadership ability, and have the ability of international competition. |
Major courses:
Material science foundation, physical chemistry, material processing and molding foundation, inorganic and analytical chemistry, organic chemistry, biosensing and bio-electronics, material mechanical properties, material physical properties, material failure analysis, modern material research methods, material preparation methods, engineering materials science, rail transit materials and their processes, polymer chemistry, polymer physics, polymer blending modification, polymer molding processing principles, polymer materials and applications, composite materials, introduction to thermodynamics and heat transfer, material surface technology, etc.
Practical courses:
Practice links include material professional understanding practice, production practice, electronic practice, mechanical manufacturing technology, professional comprehensive experimental technology and so on. With high-performance structural materials, high-speed railway key materials and processing technology, high-speed railway sensing equipment, nanomaterials, polymers and their composite materials, nano-materials and polymer-based biosensors, superconducting materials and other high-level research direction, the college can provide third-year undergraduates with dozens of scientific research skills training engineering practice and obtain the corresponding training certificate, national recognized physical and chemical inspection grade certificate, IBM certification CATIA certificate and other professional qualifications. |
Employment:
After graduation, students can enter the field of rail transit engaged in high-speed trains, ordinary rail passenger freight vehicles, sensor devices, rail bridges and rail works accessories manufacturing large enterprises, but also into modern iron and steel, materials and equipment manufacturing enterprises, engaged in material research and development design, process manufacturing design and control, product testing and quality control, equipment management and maintenance and service behavior evaluation; It can be engaged in the preparation and modification of related materials in aerospace, information technology, electronic and electrical appliances, Internet of things, automobile, ship, plastics, rubber, paint, building materials and other industries or fields, as well as in molding and processing, product design, quality inspection, production management, etc. It can also be engaged in scientific research, teaching and management in the field of new materials such as advanced structural materials, functional materials, polymer materials, superconducting materials, advanced ceramic materials, energy materials and surface engineering. In the past three years, the employment rate of students is close to 100 and the rate of graduate school is more than 40. |
2. Material Forming and Control Engineering |
This major has deep material, machinery, automatic control, electronic information, management and other basic theoretical knowledge and has a strong engineering practice ability, good comprehensive quality of senior professionals. Students can be engaged in scientific research, engineering technology and organization management of advanced material forming and control engineering, and have special advantages in welding and forming processing in rail transit field, high-end equipment materials and technology, design and manufacture of large metal structure, etc. |
Major courses:
Advanced mathematics, university physics, foreign language, physical chemistry, engineering chemistry, material science foundation, electrical technology foundation, electronic technology, mechanical drawing, material processing and forming foundation, mechanical manufacturing technology foundation, mechanical design foundation, computer application foundation, computer language and program design, microcomputer principle and application, material mechanics, material mechanical properties, material forming control foundation, welding method and equipment, welding structure, welding metallurgy, material welding property, nondestructive testing, surface engineering technology.
Practice:
At the same time, the major also attaches importance to practical teaching, such as cognitive practice, production practice, electronic practice, mechanical manufacturing technology, professional comprehensive experimental technology and other practical links, but also choose to participate in personalized experiments, SRTP、 key laboratory open projects and other innovative practical projects, signed internship agreements with a number of well-known domestic enterprises, during school study can also participate in laboratory, engineering center project research, near graduation can sign up for "international welding engineer" training. |
Employment:
Graduates are mainly employed in research institutions or large enterprises in the fields of rail transit, aerospace, automobile, machinery, ships, new energy, aerospace, heavy machinery, electronic communications, major engineering construction, foreign investment and joint ventures, and government departments. Engaged in material molding and control engineering design, production, management and other work, but also in colleges and universities engaged in related teaching and scientific research work, good employment prospects. In the past three years, the employment rate of students is close to 100 and the rate of graduate school is more than 40. |
3. Biomedical Engineering |
Biomedical engineering is a new interdisciplinary subject which integrates life science, electronic informatics, material science and so on. The foundation of this major mainly involves bioinformatics, medical imaging, nanotechnology, new material technology and so on. The research on artificial materials, products and implantable instruments used in the diagnosis and treatment of human diseases is an important engineering field related to improving medical level and human health. It is one of the most potential development advantages in the 21st century. This major has the first-level discipline master degree award right, the scientific research condition is superior, the equipment is advanced, has the national level teaching demonstration center, the material advanced technology education ministry key laboratory and the "artificial organ surface engineering" Sichuan province key laboratory, has formed the biological material, the medical device, the tissue engineering, the artificial organ and the biosensor and so on research direction. This major emphasizes the cultivation of innovative spirit and innovative practical ability, encourages students with high learning ability to actively participate in scientific research practice training at all levels of colleges and universities, innovative entrepreneurship training projects for college students, subject competitions and scientific research work of teachers, and makes every effort to cultivate innovative knowledge talents with international vision and comprehensive competitiveness.
Training objectives:
The purpose of this major is to cultivate advanced scientific and technical personnel who have a solid theoretical foundation of materials science, biomedicine, electronic informatics and biosensors, strong innovative spirit, engineering practice ability and good scientific research quality, and can be engaged in research and design, product and technology development, engineering application and management in biomedical engineering fields such as biological sensing, biomaterials, artificial organs, medical devices, etc. |