School of Manufacturing Science and Engineering
The School of Manufacturing Science and Engineering is one of the earliest departments established at Southwest University of Science and Technology. The school currently has 41 full-time professors and associate professors, and 27 lecturers and engineers. There are 2 academic leaders, 4 cross-century academic leaders, and 21 part-time professors. There are more than 1,800 students on campus and more than 4,000 talents have been sent to society.
In accordance with the principles of "thick foundation, wide caliber, emphasis on ability, strong quality, and promotion of creation", the college adheres to the training model of innovation and characteristics, actively strengthens discipline construction, and mechanical manufacturing and automation are provincial priorities. Construction discipline, with a master's degree in mechanical manufacturing and automation. The college has strong scientific research capabilities and is currently undertaking a number of national scientific research projects such as the National 863 Program and basic national defense research projects. The college has four undergraduate majors: "Mechanical Manufacturing and Automation", "Industrial Design", "Industrial Engineering", and "Process Equipment and Control Engineering". Among them, "Mechanical Manufacturing and Automation" and "Industrial Design" have been established as provincial undergraduate talent training bases, and "Mechanical Manufacturing and Automation" is a key enrollment major.
The college has first-class laboratories for modern integrated manufacturing systems, electromechanical control systems and structural analysis, and opto-mechanical integration. It has 1,100 existing equipment and instruments (sets) worth more than 7 million yuan.
The college actively promotes the in-depth development of a school-running model that closely integrates industry, academia and research, and cooperates extensively with board entities such as the China Academy of Engineering Physics, China Aerodynamics Research and Development Center, China Gas Turbine Research Institute, and Changhong Electric Co., Ltd. . At the same time, it also has extensive academic exchanges with Laurentian University in Canada, Belgorod Institute of Building Materials in Russia, and University of Kaiserslautern in Germany.
Professional introduction
l Mechanical design, manufacturing and automation (undergraduate science and engineering)
Training objectives: This major cultivates students who meet the needs of socialist modernization, morality, and Comprehensive development of intelligence, body and aesthetics, master the basic theory and basic knowledge of mechanical manufacturing and automation disciplines, understand the development direction of the machinery industry and be familiar with the design methods and technologies of mechanical design, machinery manufacturing and automation, and have the ability to conduct comprehensive analysis and analysis of mechanical engineering. The basic skills of research are application-oriented senior engineering technical talents who can work in mechanical design, machinery manufacturing and management in design units, factories and mining enterprises, scientific research units, schools and mechanical engineering management departments.
Main courses: foreign languages, advanced mathematics, engineering drawing, mechanical principles, mechanical design, theoretical mechanics, material mechanics, electrical engineering, materials and molding technology, precision design and testing, computer-aided design, basic manufacturing technology , Mechanical engineering testing technology, CNC machine tools and programming technology, automatic control theory.
Employment direction: You can engage in technical work such as machinery, electromechanical products, theoretical research, product design and development, manufacturing, testing, and related management and teaching work in scientific research institutes and industrial enterprises.
This major has the following training directions:
Manufacturing Technology and Automation Direction: Students in this direction are trained to engage in the design, manufacturing and numerical control equipment design, manufacturing and operation in the field of mechanical manufacturing. Professional technical application talents in process, technology and management work in , maintenance and other aspects. Direction group: advanced manufacturing technology, CNC system design, CNC machine tools and programming, mechanical manufacturing equipment design, computer-aided design and manufacturing, etc.
Mechanical and electrical control and informationization direction: This direction cultivates specialized technical application talents engaged in the design, manufacturing, operation, experiment and management of mechatronics products and control systems. Directional course group: Mechanical engineering testing technology, computer industrial control, industrial robots, electromechanical system design, electromechanical system simulation, etc.
Vehicle engineering and vehicle electronics direction: This direction trains students to engage in automobile design, experimental research and Professional technical application talents in the design and research of vehicle electronics. Directional class group: automobile structure, automobile theory, automobile design, vehicle electronic technology, vehicle modeling and design, driving learning, etc.
l Industrial design (undergraduate science and engineering)
Training objectives: This major aims to cultivate students' all-round development morally, intellectually, physically, and aesthetically, with solid basic theoretical knowledge, basic skills, and basic qualities of industrial design, and to be able to engage in design, management, scientific research, or teaching applications focusing on product innovation. High-level professional talents.
Main courses: College foreign language, advanced mathematics, history of industrial design, design sketching, color, basic composition, design materials and processing technology, basic mechanical design, basic manufacturing technology, human factors engineering, design psychology , product design principles and methods, product design, computer-aided design, CI design, packaging design, product development and innovation and other courses.
Employment direction: After graduation, students can engage in design work such as product styling design, visual communication, and environmental design. They can also engage in related work in enterprises and institutions such as scientific research and teaching.
This major has the following training directions:
Industrial product modeling design direction: This direction is an emerging comprehensive discipline that integrates engineering design, industrial art and humanities. Integrated, it mainly studies the functions and shapes of industrial products, and the relationship between products and people, products and the environment. Students will receive training and training in various aspects of their abilities, enabling them to become comprehensive senior design talents with the design capabilities of engineers, the aesthetic accomplishments of craftsmen, and the way of thinking of entrepreneurs. Direction course group: basics of mechanical design, computer graphics design, ergonomics, modern design methods, industrial product design, product marketing strategy, etc.
Visual communication and environmental design direction: This direction focuses on industrial product visual communication and environmental art design. Its characteristics focus more on visual art factors and design aesthetic connotation. Students are required to have high aesthetic accomplishment, strong image thinking ability and hands-on design ability; master the modeling design of industrial products, advertising design and production, computer graphics design and product marketing strategies. Directional class group: advertising design, sketching, color, composition, logo design, packaging design, CI design, rendering techniques, environmental art design, product modeling, etc.
l Industrial Engineering (Undergraduate Science and Engineering)
Cultivation objectives: This major takes mechanical engineering as the main line, strengthens the study of management disciplines, and cultivates a solid foundation of modern manufacturing engineering technology. Comprehensive senior management talents who have mastered the basic theories and methods of modern management and have systematic thinking and innovative spirit. Graduates should be able to comprehensively use natural sciences, social sciences, engineering technology, and modern management science to analyze, plan, design, evaluate, innovate, and operate complex production operations and service systems, and can serve manufacturing enterprises, service industries, government departments, Various units such as universities and scientific research institutions.
Main courses: foreign languages, advanced mathematics, engineering drawing, foundation of engineering materials and molding technology, foundation of mechanical design, foundation of manufacturing technology, management engineering, computer-aided design, precision design and testing, operations research, systems engineering , basic industrial engineering, human factors engineering, engineering economics, facility planning and logistics analysis, production operations and management, quality management, project management, management information systems, etc.
Employment direction: Graduates of this major can analyze, plan, design, manage and evaluate the production, operation and service systems of various units such as manufacturing enterprises, service industries, government departments, universities and scientific research institutions.
l Process Equipment and Control Engineering (Undergraduate Science and Engineering)
Cultivation objectives: This major is based on the basis of process equipment design, with process principles and equipment control technology applications as two wings. Cross-professional. Cultivate individuals who are comprehensively developed morally, intellectually, physically, and aesthetically, and possess knowledge in chemical engineering, mechanical engineering, control engineering, etc., who can engage in engineering design of building materials, chemical industry, and process equipment in the building materials, chemical industry, environmental protection, machinery, and labor safety departments. Application-oriented senior engineering and technical talents who work in technology development, manufacturing and installation, production management, quality supervision and operation management.
Main courses: foreign languages, advanced mathematics, basics of mechanical design, basics of manufacturing technology, chemical engineering principles, process equipment design, process control systems and engineering, and engineering mechanics.
Employment direction: Graduates of this major can engage in engineering design, technology development, manufacturing and installation, and production management of building materials, chemical industry, and process equipment in the building materials, chemical industry, environmental protection, machinery, and labor safety departments.