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Structural Engineering

Visit our website at https://sydney.edu.au/engineering/our-research/infrastructure-and-transport/centre-for-advanced-structural-engineering.html We welcome applications from hi more...

Supervisor(s): Rasmussen, Kim (Professor), Wilkinson, Tim (Associate Professor), Ranzi, Gianluca (Professor), Shen, Luming (Associate Professor), Zhang, Hao (Dr)

In situ functionalisation of carbon nanotubes

This project involves functionalising carbon nanotubes, in situ, using a fluidised bed. more...

Supervisor(s): Harris, Andrew (Professor)

Synthesis of single walled nanotubes in fluidised beds

This project involves synthesis of single walled nanotubes in fluidised beds. more...

Supervisor(s): Harris, Andrew (Professor)

Mechanical behaviour of semiconductor nanowires

This project aims to apply in-situ deformation transmission electron microscopy and finite element analysis to explore the effect of materials dimensions on the mechanical behaviour more...

Supervisor(s): Liao, Xiaozhou (Professor)

Self-assembled photonics

Self-Assembled photonics is fast becoming one of the leading photonic fabrication technologies since it is potentially compatible with fibre and integrated optics, including silicon more...

Supervisor(s): Canning, John (Honorary Professor)

Connections in high strength cold-formed rectangular hollow sections

A scholarship is available for a suitably qualified student with an Honours degree (or equivalent) in Engineering to undertake full time research leading to a PhD degree in the fiel more...

Supervisor(s): Wilkinson, Tim (Associate Professor)

Transmission electron microscopy investigation of the deformation mechanisms of nanostructured metals and alloys

This project aims to understand the mechanisms responsible for the combined high strength and high ductility in some nanostructured metals and alloys. more...

Supervisor(s): Liao, Xiaozhou (Professor)

Origin of the superplastic-like cold workability in Gum Metals

This project aims to apply ex-situ and in-situ straining transmission electron microscopy to explore the mechanisms behind the phenomenon of room temperature superplastic-like cold more...

Supervisor(s): Liao, Xiaozhou (Professor)

In-situ transmission electron microscopy nanoindentation investigation of the deformation behaviour of metallic amorphous/crystalline composites

This project aims to apply the in-situ TEM nanoindentation technique to understand external force induced interaction between crystalline phases and the amorphous matrix. more...

Supervisor(s): Liao, Xiaozhou (Professor)

Atomistic mechanisms of the mechanical behaviour of nanostructured silicon carbide

This project aims to explore the atomistic mechanisms behind the exceptional mechanical properties in some nanostructured SiC. more...

Supervisor(s): Liao, Xiaozhou (Professor)