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Responsive Metal-Organic Framework Materials

Metal-organic frameworks (MOFs) are a major new family of material that are attracting enormous interest due to their designable structures and advanced capabilities.  This pro more...

Supervisor(s): Kepert, Cameron (Professor)

Service life prediction of composite structures with machine learning

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

Supervisor(s): Hadigheh, Ali (Dr)

Poling multilayer dielectric structures for compact active optical devices

Optical communications technology has transformed the world. There is a need to get more optical processing functionality into smaller devices, for applications ranging from inexpen more...

Supervisor(s): Fleming, Simon (Professor)

Structural rehabilitation using natural and synthetic composites

The project aims to investigate the behaviour of FRP-strengthened structures under different extreme loading systems. more...

Supervisor(s): Hadigheh, Ali (Dr)

A complete solution of the internal erosion problem for granular media

One of the most common mechanisms for the failure of Earth structures is via internal erosion, where fine particles are washed out of the material by the action of water. This proje more...

Supervisor(s): Marks, Benjy (Dr), Einav, Itai (Professor)

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)

Novel THz waveguides

The THz spectrum is of great technological and scientific interest. However it is challenging because of the extremely limited range of components. This project will develop compone more...

Supervisor(s): Fleming, Simon (Professor)

Multiscale modelling and simulation of solid-fluid interactions in porous media

The aim of this project is to develop computational tools for modelling the coupled fluid transport-solid deformation behaviour in porous media at micro-, meso- and macro-scales. more...

Supervisor(s): Shen, Luming (Associate Professor)

Numerical simulation of hydraulic fracturing

The aim of this project is to develop a 3D hydraulic fracturing simulator that couples fluid-proppant-rock interactions within the framework of material point method (MPM). more...

Supervisor(s): Shen, Luming (Associate Professor)

Development of Shale Gas Reservoir Simulator

The aim of this project is to develop a triple porosity rock model coupled with the transport of gas and liquid phases for a more accurate evaluation of the shale gas recovery. more...

Supervisor(s): Shen, Luming (Associate Professor)