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High strain rate behaviour of engineering materials

This study is a part of ongoing research to develop lightweight materials that can sustain severe loading conditions. The Split Hopkinson Pressure Bar (SHPB) method will be used for more...

Supervisor(s): Mohotti, Damith (Dr)

Carbon Zero by Off-grid Technologies

Off-grid houses are autonomous dwellings that do not rely on water supply, sewer, or electrical power grid, and are able to operate completely independently of all public utility se more...

Supervisor(s): Alonso-Marroquin, Fernando (Dr)

Tree root anchoring: a biomimetic approach to foundation design

The project aims at finding new foundation designs inspired by tree roots. more...

Supervisor(s): Rognon, Pierre (Dr)

Development of smart materials impedance graded composite materials in blast and impact mitigation

The purpose of this research is to develop novel composite materials and structural systems which have wide range of applications. more...

Supervisor(s): Mohotti, Damith (Dr)

Blast and impact loadings on structures

The purpose of this research is to identify improve the current design approaches and develop innovative structural systems to mitigate damage caused by extreme loadings such as bla more...

Supervisor(s): Mohotti, Damith (Dr)

Evaluation of possible head Injuries in construction and sport fields

This research is geared towards studying the behaviour of a human head during the event of an impact in sport or construction fields. Experimental and numerical studies will be carr more...

Supervisor(s): Mohotti, Damith (Dr)

Mixing, transport and water quality in reservoirs and lakes

The project aims to investigate mixing and scalar transport in natural water bodies under the effects of natural and artificial forcing. more...

Supervisor(s): Lei, Chengwang (Professor)