The Department of Mechanical and Aerospace Engineering (MAE) is one of the leading MAE departments in Asia. It offers rigorous academic and professional training in a wide range of areas, including both traditional and cutting-edge topics in energy, mechanics, advanced materials, nano/biotechnology, and manufacturing.
The Master's programmes focus on strengthening students' background in mechanical engineering, increasing their mathematical proficiency, and exposing them to the environment of engineering research and development.
Students are required to undertake coursework and successfully complete a thesis to demonstrate competence in engineering research. Students must attend seminars. They must also take and pass an English language communication course. The programme normally takes two years of full-time study to complete.
The Department's research concentrates on energy and environmental engineering, mechanics and materials, and mechatronics and manufacturing.
Solid Mechanics and Dynamics
These are two of the fundamental pillars of Mechanics research. The Department has a diverse faculty with expertise in these fields. Research activities range from applied to theoretical problems and have a marked multidisciplinary nature. They involve applied mathematics, solid mechanics, nonlinear dynamics, computations, solid state physics, material science and experiments for various kinds of solid materials/systems and mechanical behaviours. Faculty members work on problems of both static and dynamic natures with different types of evolutions. These problems also involve multi-field coupling on different scales of time and length, from micro-second to longtime creep processes and from a very small carbon nanotube or a cell to macroscopic scale composite materials and electro-mechanical devices/systems.
Materials engineering focuses on characterizing and processing new materials, developing processes for controlling their properties and their economical production, generating engineering data necessary for design, and predicting the performance of products. Research topics include smart materials, biomaterials, thin films, composites, fracture and fatigue, residual life assessment, materials issues in electronic packaging, materials recycling, plastics flow in injection moulding, advanced powder processing, desktop manufacturing, and instrumentation and measurement techniques.
Design and Manufacturing Automation
These elements lie at the heart of mechanical engineering in which engineers conceive, design, build, and test innovative solutions to "real world" problems. Research is being conducted in the areas of geometric modelling, intelligent design and manufacturing process optimization, in-process monitoring and control of manufacturing processes, servosystem control, robotics, mechatronics, prime-mover system control, sensor technology, and measurement techniques, and bio-medical systems design and manufacturing.
Microsystems and Precision Engineering
MicroElectroMechanical Systems (MEMS) is a multidisciplinary research field which has been making a great impact on our daily life, including various microsensors used in personal electronics, transportation, communication, and biomedical diagnostics. Fundamental and applied research work is being conducted in this area. Basic micro/nanomechanics, such as fluid and solid mechanics, heat transfer and materials problems unique to micro/nanomechanical systems are studied. New ideas to produce microsystems for energy, biomedicine and nanomaterials, micro sensors and micro actuators are explored. Technology issues related to the micro/nanofabrication of these devices are being addressed.
Energy Technology Concentration
Energy has been considered a core research area within the broadly-based disciplines of environmental science and technology. It is one of the most salient emerging disciplines amongst many in the fields of engineering, science, and social science. Energy Technology research covers many areas, including sustainable technology, conventional technology, and energy efficiency and conservation. The interdisciplinary postgraduate research programme in Energy Technology in the School of Engineering at the Hong Kong University of Science and Technology provides long-term support to our ongoing educational training and fast-developing research in technology in general.
Due to the multi-disciplinary nature of Energy Technology, research and training in the field are integrated with different disciplines so that students can be equipped with the necessary knowledge and experience.
Programme information for 2020/21 is now ready at pg.ust.hk/programs.
i. General Admission Requirements
Applicants seeking admission to a master's degree should have:
- obtained a bachelor’s degree from a recognized institution, or an approved equivalent qualification.
ii. English Language Admission Requirements
You have to fulfil English Language requirements with one of the following proficiency attainments*:
- TOEFL-iBT 80#
- TOEFL-pBT 550
- TOEFL-Revised Paper-Delivered Test 60 (total scores for Reading, Listening and Writing sections)
- IELTS (Academic Module) Overall score: 6.5 and All sub-scores: 5.5
*If your first language is English, and your bachelor’s degree or equivalent qualification was awarded by an institution where the medium of instruction was English, you will be waived from fulfilling the above English Language requirements.
#refers to the total score in one single attempt
Please refer to pg.ust.hk/programs ("Application") for details.
About the School
Situated at the heart of Asia, the Hong Kong University of Science and Technology (HKUST) is a young and distinguished research university in Hong Kong. Ranked No. 30 in the World in the QS World Univ ... Read More