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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)

Neuromuscular Mechanisms Underlying Poor Recovery following Head/Neck Trauma

My laboratory investigates the neuromuscular mechanisms underlying the transition from acute to chronic pain following musculoskeletal trauma (generally) and head/neck trauma (speci more...

Supervisor(s): Elliott, James (Professor)

Harnessing Data for Better Health – Triangulating the patient’s pain experience

My laboratory investigates the neuromuscular mechanisms underlying the transition from acute to chronic pain following musculoskeletal trauma (generally) and head/neck trauma (speci more...

Supervisor(s): Elliott, James (Professor)

Predictors and mediators of swallowing and voice deficits following whiplash trauma: Is it biology or psychology?

My laboratory investigates the neuromuscular mechanisms underlying the transition from acute to chronic pain following musculoskeletal trauma (generally) and head/neck trauma (speci more...

Supervisor(s): Elliott, James (Professor)

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)

Dissipative pressure waves and the mechanics of granular materials

This project will experimentally investigate damage zones around seismogenic faults. This will be achieved through examining a novel basic mechanism for instability in solids: volum more...

Supervisor(s): Marks, Benjy (Dr)

Structural application of recycled fibre reinforced polymer (rFRP) composites

The objective of the project is to develop more sustainable infrastructures. more...

Supervisor(s): Hadigheh, Ali (Dr)

Turbulent transport of algae in stably stratified rivers: a computational fluid dynamics study

In stably stratified shear flows, turbulent mixing is suppressed by the background stratification. In rivers, these conditions allow buoyant cyanobacteria to float to the surface an more...

Supervisor(s): Williamson, Nicholas (Dr), Armfield, Steven (Professor)

Turbulent mixing in stably stratified flow: a laboratory and field based study

In stably stratified shear flows, turbulent mixing is suppressed by the background stratification. This project will examine this dynamic using laboratory experiments and field meas more...

Supervisor(s): Williamson, Nicholas (Dr), Armfield, Steven (Professor)

Are there a subset of normal mammographic images that do not require paired radiologist reading?

Automatic detection of normal mammography images more...

Supervisor(s): Brennan, Patrick (Professor)