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Simulation of dynamic fracture propagation

The purpose of this research is to develop a computational method for dynamic fracture propagation associated with impact and blast. more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

XFEM methods for fracture propagation

The purpose of this research is to develop a FEM method for simulation of fracture. more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

Computer vision techniques for forensic engineering and damage assessment in structures

This research will develop high-end technology based on computer vision for structural health monitoring and damage localisation in structures. more...

Supervisor(s): Dias-da-Costa, Daniel (Dr)

Understanding the growth of hydrodynamic instabilities in Inertial Confinement Fusion

The National Ignition Facility (NIF) in the USA has managed to achieve a fusion fuel gain of 1 in landmark experiments. However, the targeted gain is substantially higher than this more...

Supervisor(s): Thornber, Ben (Dr)

Modular Character Sheaves on Lie Algebras

Developing a theory of character sheaves with modular coefficients on the Lie algebras of reductive groups. more...

Supervisor(s): Henderson, Anthony (Professor)

Efficient Large Eddy Simulations of Helicopter Aerodynamics and Aeroacoustics

This project aims to push forward the state of the art in unsteady turbulent simulations of helicopters and UAVs flying in atmospheric turbulence generated over ships and through ur more...

Supervisor(s): Thornber, Ben (Dr)

Closure of the Exponential Embedding of the Nilpotent Cone

Algebra; representation theory; algebraic groups; sheaves; geometry more...

Supervisor(s): Henderson, Anthony (Professor)

Computational Automotive Aeroacoustics

Current automotive aerodynamic design is driven by a myriad of requirements including minimum drag, minimum noise, favourable handling, thermal management and vehicle soiling. Our g more...

Supervisor(s): Thornber, Ben (Dr)

Compressible Turbulent Mixing

A fundamental understanding of compressible turbulent mixing is critical to advancing technologies in aeronautical, automotive, clean energy and acoustics. This project aims to deve more...

Supervisor(s): Thornber, Ben (Dr)

Exploring fundamental physics with gravitational waves

The Project aims to develop new theoretical techniques and utilise them to model and analyse various gravitational wave signals within the alternative theories of space, time and ma more...

Supervisor(s): Kobakhidze, Archil (Associate Professor)