Approved Courses for Research Degree Students (MNE)

Department of Mechanical Engineering

MPhil/PhD students are required to fulfill the stipulated core course and electives requirements.

Core Courses for PhD Students (9 Credits) for 2022 cohort and after:

Code

Course Title

Credits

MNE8108 Engineering Methods % 3
MNE8109 Thermodynamics and Kinetics % 3
MNE8110 Sensors for Robotics, AI, and Control Systems % 3
MNE8111 Advanced Thermal Fluids % 3
MNE8113 Applied Engineering Mechanics % 3
MNE8114 Fundamentals of Nuclear Engineering  3
MNE8122 Advanced Topics in Nonlinear Dynamics, Vibration & Control 3


Core Courses for PhD Students (9 Credits) for 2019 cohort and after:

Code

Course Title

Credits

MNE8108 Engineering Methods % 3
MNE8109 Thermodynamics and Kinetics % 3
MNE8110 Sensors for Robotics, AI, and Control Systems % 3
MNE8111 Advanced Thermal Fluids % 3
MNE8113 Applied Engineering Mechanics % 3
MNE8114 Fundamentals of Nuclear Engineering  3

Core Courses for MPhil Students for 2019 cohort and after:  Nil

Research Methodology and Ethics Course (2 credits) for PhD/MPhil Student for 2019 cohort and after:

Code

Course Title

Credits

MNE8009 Research Methodology  2

Electives for PhD Students (3 Credits) for 2019 cohort and thereafter:

Code

Course Title

Credits

MNE8001 Comprehensive Studies # ∆ 3
MNE8101 Special Topics on Advanced Structural Materials  3
MNE8102 Kinetics in Nanoscale Materials  3
MNE8104 Nano-manufacturing % 3
MNE8105 Mechanical Behaviour of Materials: From Metallic to Biomedical/ Biological Materials % 3
MNE8106 Electron Microscopy  3
MNE8112 CAD/CAM/CAE Integration % 3
MNE8116 Computer Controlled Systems 3
MNE8117 Micro Systems Technology % 3
MNE8118 Advanced Automation Technology  3
MNE8119 Sustainable Green Manufacturing  3
MNE8120 Microfluidics: From Fundamentals to Applications % 3
MNE8121 Advanced Machine Learning and Quantum Computation for Engineering % 3
BME8103 Manufacturing of Biomedical Devices % 3
BME8122 Biomedical Engineering Design % 3
BME8127 Biomedical Instrumentation % 3
BME8130 Biomedical Safety and Risk Assessment % 3
BME8131 Biomedical Imaging and Biophotonics % 3
BME8132 Biomechanics % 3
 

Electives for MPhil Students (5 Credits) for 2019 cohort and thereafter:

Code

Course Title

Credits

MNE8001 Comprehensive Studies # ∆ 3
MNE8101 Special Topics on Advanced Structural Materials  3
MNE8102 Kinetics in Nanoscale Materials  3
MNE8104 Nano-manufacturing % 3
MNE8105 Mechanical Behaviour of Materials: From Metallic to Biomedical/ Biological Materials % 3
MNE8106 Electron Microscopy % 3
MNE8111 Advanced Thermal Fluids % 3
MNE8112 CAD/CAM/CAE Integration % 3
MNE8113 Applied Engineering Mechanics % 3
MNE8116 Computer Controlled Systems 3
MNE8117 Micro Systems Technology % 3
MNE8118 Advanced Automation Technology  3
MNE8119 Sustainable Green Manufacturing  3
MNE8120 Microfluidics: From Fundamentals to Applications % 3
MNE8121 Advanced Machine Learning and Quantum Computation for Engineering % 3
BME8103 Manufacturing of Biomedical Devices % 3
BME8122 Biomedical Engineering Design % 3
BME8127 Biomedical Instrumentation % 3
BME8130 Biomedical Safety and Risk Assessment % 3
BME8131 Biomedical Imaging and Biophotonics % 3
BME8132 Biomechanics % 3
 

Core Courses for PhD Students (5 Credits) for 2018 cohort or before:

Code

Course Title

Credits

MBE8009/MNE8009 Research Methodology  2
or    
MBE8002M/MNE8002M Research Seminar @ 2
  and  
MBE8010/MNE8010 Advanced Research Topics  3
or    
MBE8007/MNE8007 Research and Development Case Study *  3
or     
MBE8007M/MNE8007M Research and Development Case Study @  3
 

Core Courses for MPhil Students (2 Credits) for 2018 cohort or before:

Code

Course Title

Credits

MBE8009/MNE8009 Research Methodology 2

Electives for PhD Students (9 Credits) for 2018 cohort or before only:

Code

Course Title

Credits

MNE8001 Comprehensive Studies # ∆ 3
MNE8101 Special Topics on Advanced Structural Materials  3
MNE8102 Kinetics in Nanoscale Materials  3
MNE8104 Nano-manufacturing % 3
MNE8105 Mechanical Behaviour of Materials: From Metallic to Biomedical/ Biological Materials % 3
MNE8106 Electron Microscopy % 3
MNE8111 Advanced Thermal Fluids % 3
MNE8112 CAD/CAM/CAE Integration % 3
MNE8113 Applied Engineering Mechanics % 3
MNE8116 Computer Controlled Systems 3
MNE8117 Micro Systems Technology % 3
MNE8118 Advanced Automation Technology  3
MNE8119 Sustainable Green Manufacturing  3
MNE8120 Microfluidics: From Fundamentals to Applications % 3
MNE8121 Advanced Machine Learning and Quantum Computation for Engineering % 3
BME8103 Manufacturing of Biomedical Devices % 3
BME8122 Biomedical Engineering Design % 3
BME8127 Biomedical Instrumentation  % 3
BME8130 Biomedical Safety and Risk Assessment % 3
BME8131 Biomedical Imaging and Biophotonics  % 3
BME8132 Biomechanics  % 3
 

Electives for MPhil Students (5 Credits) for 2018 cohort or before only:

Code

Course Title

Credits

MNE8001 Comprehensive Studies # ∆ 3
MNE8101 Special Topics on Advanced Structural Materials  3
MNE8102 Kinetics in Nanoscale Materials  3
MNE8104 Nano-manufacturing % 3
MNE8105 Mechanical Behaviour of Materials: From Metallic to Biomedical/ Biological Materials % 3
MNE8106 Electron Microscopy  3
MNE8111 Advanced Thermal Fluids % 3
MNE8112 CAD/CAM/CAE Integration % 3
MNE8113 Applied Engineering Mechanics % 3
MNE8116 Computer Controlled Systems 3
MNE8117 Micro Systems Technology % 3
MNE8118 Advanced Automation Technology  3
MNE8119 Sustainable Green Manufacturing  3
MNE8120 Microfluidics: From Fundamentals to Applications % 3
MNE8121 Advanced Machine Learning and Quantum Computation for Engineering % 3
BME8103 Manufacturing of Biomedical Devices % 3
BME8122 Biomedical Engineering Design % 3
BME8127 Biomedical Instrumentation % 3
BME8130 Biomedical Safety and Risk Assessment % 3
BME8131 Biomedical Imaging and Biophotonics % 3
BME8132 Biomechanics % 3
 
 

*  For MNE PhD students under joint PhD programmes.

# Scope of studies and assessment methods to be decided by the Qualifying Panel.

∆ Only for special occasions. Consultation with the course leader of MNE8001 is required before registration.

@ For MNE PhD students under the Mainland Collaboration Schemes only. Courses will be offered outside Hong Kong.

% Open to research students from other local institutions, subject to availability of places and applicants' background in the relevant subject area for students of other institutions