In terms of teaching, the School of Mechanical Engineering has always insisted on teaching as the center, teaching and educating people, strengthening the construction of teacher morality and the construction of good academic style, and insisting on theory and practice, and was awarded the "Advanced Collective of Teacher Morality Construction" in Tianjin in 2003. Mechanical Engineering College "Drawing Geometry and Mechanical Drawing" and "Engineering Mechanics" is the Tianjin City Excellence Courses, "Mechanical Design" and "Engineering Materials" courses have been established as school-level excellence courses. "Mechanical Design" and "Engineering Materials" were established as school-level quality courses. Since the "Tenth Five-Year Plan", 31 teaching materials and teaching books have been written and published, and 4 provincial and ministerial excellent teaching achievements have been awarded.
The School of Mechanical Engineering now has eight laboratories: Mechanical Fundamentals Laboratory Center, Mechanical CAD Laboratory Center, Mechanical Design and Manufacturing and Automation Laboratory, Process Equipment and Control Engineering Laboratory, Material Forming and Control Engineering Laboratory, Automotive Service Engineering Laboratory, Industrial Design Laboratory and Industrial Engineering Laboratory. The laboratory area reaches 6000M2, and the total value of experimental equipment is nearly 14 million yuan. Since the "Tenth Five-Year Plan", the central government, the Tianjin Municipal Government and the school invested more than 10 million yuan in laboratory construction, the purchase of high-speed CNC milling machines, machining centers, laser rapid prototyping machines, three-coordinate measuring machine, laser three-dimensional scanner, electromagnetic tracking measurement system, multi-channel vibration test and analysis system, electronic universal testing machine, Hydraulic servo fatigue testing machine, FESTO electromechanical simulation production system, CAD/CAM/CAE software and a number of other advanced test instruments and software, to improve the quality of teaching and research level.
School of Mechanical Engineering adheres to the guidance of social demand, adjusts the curriculum, carries out vocational skills training among students, links teachers' scientific research and social service, student internships with undergraduate employment, and constantly improves the employment rate of undergraduates, and the employment rate of undergraduates has reached more than 96% in the past three years, always in the forefront of the school, and won the school's "Advanced Collective for Employment Work" in 2005.
Mechanical Engineering and Engineering Department of the University of California, Berkeley, has been awarded the "Advanced Collective for Employment Work" in 2005.
School of Mechanical Engineering's current work focuses on: improving the construction of academic disciplines and faculty, centering on teaching work, constantly improving the quality of teaching, training qualified personnel with all-round development of morality, intelligence and physical fitness, and contributing to the scientific and technological progress and economic construction of the country and the city of Tianjin.
College of Mechanical Engineering
College of Mechanical Engineering
Introduction of the College
College of Mechanical Engineering is one of the major faculties and departments established at the time of the founding of the university in 1958. There are one doctoral program in Light Industry Process and Equipment, five master's programs in Mechanical Design and Theory, Mechanical Manufacturing and Automation, Mechatronics Engineering, Vehicle Engineering, and Chemical Process Mechanics, as well as seven undergraduate programs in Mechanical Design, Manufacturing and Automation, Process Equipment and Control Engineering, Mechatronics Engineering, Mold Design, Manufacturing and Automation, Industrial Design (Engineering), Industrial Engineering, and Automotive Engineering. The college has 102 faculty members, including 14 professors and 51 associate professors (including senior engineers).
The college has seven laboratories, which are Mechanical Fundamentals Laboratory Center, Mechanical Design and Manufacturing and Automation Laboratory, Automotive Engineering Laboratory, Process Equipment and Control Engineering Laboratory, Material Forming and Control Engineering Laboratory, Industrial Design Laboratory and Industrial Engineering Laboratory. Laboratory area of about 3,000M2 , experimental equipment worth more than 12.2 million yuan, in addition, in the school of gold internship base, CAD center can be used in the professional laboratory equipment worth more than 4.6 million yuan.
Since the Ninth Five-Year Plan, it has completed more than 30 scientific research projects above the provincial and ministerial levels, and won 12 provincial and ministerial scientific research awards. Of which 14 transferred, the direct economic benefits of more than 78 million yuan. A number of scientific research achievements, such as glassware production line, salt packaging machine, drying and concentration equipment, machine vision detection technology and application, etc. in the domestic leading or advanced position.
The focus of the college's current work is to: improve the construction of academic disciplines, faculty construction and the transformation of scientific research results, and constantly improve the quality of teaching, training qualified personnel with all-round development of morality, intelligence and physical fitness, and make due contributions to the scientific and technological progress and economic construction of the country and Tianjin.
Enrollment Specialties
Machinery Design and Manufacture and Automation (Mach-electronics Engineering)
Machinery Design and Manufacture and Automation (Mach-electronics Engineering)
Cultivation Objective: This specialty is to cultivate the talents who master mechanical engineering and microelectronics engineering. Cultivate senior engineering talents who master the basic theory and knowledge of mechanical engineering and microelectronics technology, master the basic skills of mechanical design and manufacturing, automatic control and detection of electromechanical equipments and production systems, and computer application technology, and who have the ability to apply the specialized knowledge of machine, electricity, liquid and gas to the planning, integration, design and manufacturing of mechatronic products and production systems.
Program: four years
Degree: Bachelor of Engineering
Main Courses: Engineering Mechanics, Mechanical Design, Electricity and Electronics, Pneumatic and Hydraulic Transmission and Control, Modern Control Engineering, Computer Aided Design, Mechatronic Transmission and Control, Testing Technology, Principles of Microcomputer and Interfacing Technology, Numerical Control Technology, Automatic Mechanical Design, Mechatronics System Design, Management Engineering and Technical Economics. Technical economics
Employment prospects: students can graduate to machinery, electronics, transportation, light industry and other industries or research units, colleges and universities engaged in the design of electromechanical products, equipment and production systems, manufacturing, development, research, management and teaching and other aspects of work.
Automobile Service Engineering
Automobile Service Engineering
Cultivation Objective: This specialty cultivates the basic theories and knowledge of solid mechanical engineering, electronics and computer technology, with comprehensive quality, strong practical ability and innovative spirit, with a solid foundation of modern automobile technology, and the ability to realize technical support of automobile engineering, with modern automobile service engineering. Engineering to realize technical support, with modern automobile service concepts and professional quality, in the field of automobile engineering and automobile application to engage in new technology development, automobile technical service, automobile trade and other work of senior complex talents.
Program: four years
Degree: Bachelor of Engineering
Main Courses: Engineering Mechanics, Fundamentals of Mechanical Design, Electrical and Electronic Technology, Automobile Structure, Automobile Electrical Equipment, Automobile Electronic Control Technology, Engine Principle, Gas-liquid Transmission, Automobile Maintenance Engineering, Automobile Testing and Diagnostic Technology, Automobile and Environment, Automobile Service System Planning, and Automobile Marketing and Planning.
Employment Prospects: The employment field of this specialty is broad and conducive to the rapid development of students. After graduation, students can choose automobile design and manufacturing and research and development, production organization and management, testing and diagnosis, operation and sales, insurance claims, theoretical research and other aspects of the work according to their own ability, personality, hobbies.
Machinery Design and Manufacture and Automation (Mould Design and
Manufacture and Automation)
Machinery Design and Manufacture and Automation (Mould Design and
Manufacture and Automation)
Cultivation objectives: this specialty cultivates students with the basic theoretical knowledge of mold design and manufacturing and application of ability to engage in mold design and manufacturing and theoretical research, molding industrial products, science and technology development, mastering the theory of automation control and a certain degree of knowledge of the management of the senior engineering and technical personnel.
Program: four years
Degree: Bachelor of Engineering
Main Courses: Engineering Mechanics, Fundamentals of Materials Science, Mechanical Design, Electrical Engineering and Electronic Technology, Computer Principles and Applications, Thermal Processing Process Fundamentals, Mold Manufacturing Process, Testing Technology, CNC Technology, Control Engineering, Electrical Transmission and Control, Molding Process and Mold Design, Mold CAD/CAM, Molding Equipment, etc.
Employment Prospects: The students can be engaged in a variety of mold design and manufacturing work, but also can be engaged in machinery, electronics, light industry, national defense and other related industries, technical work. After graduation, students can go to the automobile, instrumentation, electrical appliances, computers, cameras, machine tools, aerospace, weapons manufacturing and other industries or research units, colleges and universities engaged in mold design, manufacturing, research, management and teaching work.
Processing Equipment and Controlling Engineering (Foodstuff Machinery and Bioengineering Equipment)
Processing Equipment and Controlling Engineering (Foodstuff Machinery and Bioengineering Equipment)
Cultivation Objective: This program trains students to master the basic theories and skills of mechanics, chemical engineering, biochemical engineering, control engineering and management engineering, to obtain systematic training in process equipment and control engineering design, to master the theoretical knowledge and skills of process equipment manufacturing, and to have the ability of engineering design, technological development, theoretical research, and production management of senior engineering and technical personnel.
Program: four years
Degree: Bachelor of Engineering
Main Courses: Engineering Mechanics, Engineering Fluid Mechanics, Mechanical Design, Electrical and Electronic Technology, Principles of Chemical Engineering, Thermal Engineering, Process Fluid Mechanics, Vessel Design, Process Equipment Design, Computer Application and Control Engineering, Process Measurement and Control, Biochemical Engineering, Food Engineering, Technological Economics
This program is designed to provide the students with the knowledge and skills to design and manufacture process equipment. p>Employment Prospects: This specialty is a multidisciplinary, multifield intersection, set of mechanical, electrical, biochemical as a whole, a wide range of knowledge, by the employer's welcome profession. Can be engaged in biochemical, chemical, light industry, machinery, food, pharmaceutical, energy, environmental protection and labor safety sectors such as engineering design, technology development, production management and scientific research, has a broad employment prospects.
Industrial Design
Industrial Design
Cultivation Objective: This specialty cultivates applied senior talents with the ability to engage in the design of industrial product modeling, teaching and scientific research in the fields of machinery, electronics and light industry. Students should systematically master the basic theories of industrial design and electromechanical engineering, be able to skillfully use a variety of composition design methods and artistic expression techniques, and have the ability to design industrial product modeling and new product development.
Program: four years
Degree: Bachelor of Arts
Major Courses: Engineering Mechanics, Electrical and Electronic Technology Fundamentals, Mechanical Design Fundamentals, Plane Composition, Color, Three-dimensional Composition, Drawing, Effect Drawing, Model Making, Ergonomics, Market Research and Consumer Psychology, Modeling Materials and Processes, Product Design, and Computer-aided Graphic Design, etc.
Employment Prospects: This is a multidisciplinary, multidisciplinary and intersecting specialty, integrating art, machinery and electronic technology, with a broader knowledge base. After graduation, students can work in enterprises and institutions, design departments, scientific research units engaged in industrial products (including large-scale engineering equipment, transportation, household appliances, living and office supplies, etc.) modeling design, teaching and research work.
Industrial Engineering
Industrial Engineering
Cultivation Objective: This program trains students to become composite senior engineering management talents who master both the basic theories and methods of modern engineering management and have solid knowledge of mechanical engineering. Students should have knowledge of modern manufacturing technology, systems management; systematic mastery of mechanical engineering disciplines, computers and information technology, business operations and production management and other aspects of the basic theory and knowledge, to accept the use of industrial engineering theory and methodology to solve practical problems in the basic training, with the actual management system for the development of the design of the basic ability.
Program: 4 years
Degree: Bachelor of Engineering
Major Courses: Engineering Mechanics, Electrical and Electronic Technology Fundamentals, Mechanical Design Fundamentals, Computer Aided Design, Modern Manufacturing Systems, Ergonomics, Software Engineering Fundamentals, Operations Research, Statistics, Management, Industrial Engineering Fundamentals, Cost Control, Marketing, Economic Law, Engineering Economics, Management Information System, logistics management, quality management and control, etc.
Employment Prospects: The students of this major have knowledge of technology, economics, management, employment is wide, after graduation, you can be engaged in national administration, institutions, industrial and commercial enterprises in the production, operation, service and other management systems planning, design, evaluation, consulting and so on, but also can be engaged in higher education, teaching, scientific research, etc. The program is designed for students who want to learn how to use the program in their own way.