Mechanical Engineering (Doctor of Engineering）

Objective: High-level academic innovative talents are cultivated to master thorough and broad basic theories and systematic and in-depth expertise of Mechanical Engineering discipline, to apply and integrate modern theories and methods of mechanical science, information science, material science, management science and natural science. They are also supposed to engage in scientific research, high-tech development and talent training in modern design, advanced manufacturing, automatic control, precision testing and other fields, to be able to independently conduct scientific research and make innovative achievements in science or special technology with a global vision.

Curriculum:

Core courses: Mathematical Model, Wavelet Analysis, Applied Functional Analysis, Advanced Mechanics of Solids, Principles of The Modern Sensor, Dynamics Science of Elastic Mechanism and Intelligent Monitoring Technology.

Featured courses: Operational Research, Software Engineering Management, Micro- and Nano-Technology, Fatigue Limit Theory, Welding Physics, Ultrasonic Waves in Solid Media, Principles of Advanced Precision Engineering, Machine Dynamics, Compliance Mechanism, Redundancy and Optimization of Robots, Nondestructive Testing and Structural Health Monitoring.

Career: The Ph.D. students majoring in Mechanical Engineering start their career in mechanically related teaching and scientific research in science and engineering universities and scientific research institutes in Beijing and other cities.

Mechanical Engineering(Academic Master of Engineering)

Objective: To cultivate high-level application-oriented engineering and technical talents who master thorough and extensive basic theories and systematic and intensive expertise of Mechanical Engineering, comprehensively employ modern mechanical design methods, modern control technologies, advanced manufacturing processes, signal detection as well as data analysis and process, know the operation means of modern manufacturing equipment and detection instruments, have the ability of mechanical and electrical product development, engineering design and project management and solve practical problems in production.

Curriculum:

Core courses: Numerical Analysis, Mathematical Statistics and Stochastic Process, Mechanical Vibration and Modern Control Engineering.

Featured courses: Modern Numerical Control Technology, Computer-Aided Design and Manufacturing, Mechatronics Interface Technology, Precision Ultra-Precision Machining Technology, Monitoring and Control Technology of Manufacturing Processes, Rapid Prototyping Technology and Arc Welding Control.

Career: Graduate students following this pathway largely start their career in the field of development, design, manufacturing and testing of mechanical products in research academies (institutes), large and medium-sized enterprises, joint ventures, colleges and universities, and other units.

Mechanical Engineering (Professional Master’s degree of Engineering)

Objective: To cultivate high-level application-oriented and interdisciplinary engineering and technical talents with professional ethics and professionalism, as well as scientific and practical-minded attitudes to learning and work style and good morality in mind. They master thorough and extensive basic theories, systematic and intensive expertise of Mechanical Engineering; comprehensively employ modern control technologies, advanced manufacturing processes, signal detection, data analysis and process as well as modern manufacturing equipment and detection instruments; know how to develop the mechanical and electrical product, design engineering and manage the project; solve practical problems in production; to be engaged in scientific research or independently undertake specialized technical work.

Curriculum:

Core courses: Numerical Analysis, Mathematical Statistics and Stochastic Process, Matrix Theory, Mechanical Vibration and Mechatronics Interface.

Featured courses: Mechanical Design, Manufacturing and Testing, PLC Application and Technology, Mechanism Analysis and Synthesis, Modern Precision Measuring Technology and Instruments and Robotics.

Career: Graduate students following this pathway are mainly engaged in digital manufacturing and design, modern system design, mechatronics design and manufacturing, high-end equipment manufacturing and dynamic analysis, precision instrument design and testing.