PROGRAMMES >>>

Master of Science in Mechanical Engineering
Programme
Master of Science in Mechanical Engineering
理學碩士(機械工程學)
Award Title
Master of Science in Mechanical Engineering
理學碩士(機械工程學)
Offering Academic Unit
Department of Mechanical Engineering
Mode of Study
Combined mode

Normal Period of Study

- 1 year (full-time)
- 1.5 years (via Dissertation) (part-time / combined mode)
- 2 years (via Taught Courses) (part-time / combined mode)

Maximum Period of Study

- 2.5 years (full-time)
- 5 years (part-time / combined mode)

Credit Units Required for Graduation

30

Programme Aims

  • To educate students to excel in advanced mechanical engineering discipline as well as to extend the boundaries of their professional competence to meet the needs of future industrial development.
  • To provide opportunities for students to develop leadership and creativity by engaging in interactive learning environments and management studies. 

Programme Intended Learning Outcomes (PILOs)

  1. Acquire essential concepts and knowledge of advanced mechanical engineering as well as across the boundaries of interdisciplinary disciplines. 
  2. Apply specialized knowledge to solve problems that are critical to future growth of industry and business.
  3. Work effectively with people possessing diverse educational and experiential backgrounds in mechanical related disciplines.
  4. Apply interdisciplinary teamwork to develop abilities to meet the increasingly competitive and dynamically changing world market. 

Programme Requirements



Core Courses (15 credit units)
Take all (6 credit units) as below:
Course CodeCourse TitleCredit Units
MNE6007Advanced Automation Technology3
MNE6113Advanced Thermo-fluid3
and select three courses (9 credit units) from below:
Course CodeCourse TitleCredit Units
MNE6005Micro Systems Technology3
MNE6110Mechanical Behaviour of Materials: From Metallic to Biomedical/Biological Materials3
MNE6116Applied Engineering Mechanics3
MNE6126Sensors for Robotics, AI, and Control Systems3
MNE6127Microfluidics: From Fundamentals to Applications3
MNE6130Modern Robotics3

Elective Courses (15 credit units) for the selection:
Course CodeCourse TitleCredit UnitsRemarks
MNE5101Principles of Nuclear Engineering3
MNE5103Risk and Reliability Engineering3
MNE5112Mechanical Design with Advanced Material & Additive Manufacturing3
BME6101Manufacturing of Biomedical Devices3
BME6111Biomedical Instrumentation3
MNE6001CAD/CAM Integration3
MNE6002Computer Controlled Systems3
MNE6005Micro Systems Technology3If not being taken to fulfill the core requirement
MNE6008Dissertation9
MNE6046Nano-manufacturing3
MNE6047Directed Studies3
MNE6110Mechanical Behaviour of Materials: From Metallic to Biomedical/Biological Materials3If not being taken to fulfill the core requirement
MNE6114Control Systems and Information Processing3
MNE6115Bio-Inspired Robots3
MNE6116Applied Engineering Mechanics3If not being taken to fulfill the core requirement
MNE6119Electron Microscopy3
MNE6124Advanced Micro/Nano Robotics3
MNE6125Engineering Methods3
MNE6126Sensors for Robotics, AI, and Control Systems3If not being taken to fulfill the core requirement
MNE6127Microfluidics: From Fundamentals to Applications3If not being taken to fulfill the core requirement
MNE6128Advanced Machine Learning and Quantum Computation for Engineering3
MNE6129Sustainable Engineering Practice3
MNE6130Modern Robotics3If not being taken to fulfill the core requirement