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 molding; advanced powder processing; desktop manufacturing; and instrumentation and measurement techniques.
Prof Baoling HUANG
Prof Jang Kyo KIM
Prof David C C LAM
Prof Ricky S W LEE
Prof Yang LENG
Prof Qingping SUN
Prof Jingshen WU
Prof Matthew M F YUEN
Prof Tongyi ZHANG
Representative Research Projects
- 3D Packaging with Silicon Chip Carriers and Through Silicon Vias for System-in-Package
- Electrical Conductivity in Iodine Treated Silver ECAs
- Novel Techniques for Synthesis of Graphene and Graphene/polymer Nanocomposites
- Phase Transition Behavior of NiTi Shape Memory Alloy Polycrystals at Intermediate Tensile Strain Rates of 0.1/s-100/s
- The Role of Maxwell Stresses and Tractions in the Fracture Behaviors of Piezoelectric Materials
Significant Impacts Areas
A research team led by Professor Shi-Wei Ricky Lee of Mechanical Engineering successfully developed High Brightness Light Emitting Diodes (HB-LEDs) array modules to help the MTR Corporation to be more energy-efficient and environmentally friendly on their trains. This again reflects UST's key role in the development of Hong Kong by forging partnerships with business and industry.
Solid state lighting using HB-LEDs consumes less electricity than conventional fluorescent light tubes used in households. HB-LEDs generate 'cold light', which has no heat radiation, resulting in savings on air-conditioning costs. They also have a useful life of more than 10 years which is at least six times longer than fluorescent lighting, resulting in less replacement costs and less waste being generated.