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High performance computational nanotechnology

This project seeks to develop these techniques for molecular simulations of liquid and solid states using parallel computational techniques. The developed algorithms will be used on more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Computational study of the structure and dynamics of supercooled liquids

Amorphous or glassy solids represent one of the last great challenges for materials science, chemical physics and condensed matter physics. These important materials present us with more...

Supervisor(s): Harrowell, Peter (Professor), Hudson, Toby (Dr)

Development of fractal asperity microstructures and their effects on frictional properties

Hierarchical structures exhibiting self-affinity are abundant in nature. We seek to characterise how the evolution of such self-affine topographies is governed by microstructural pa more...

Supervisor(s): Hanaor, Dorian (Dr)

Developing nanoscale analysis techniques for microscopy

This project is a nexus of materials engineering, microscopy and scientific computing. Using advanced microscopy techniques, you will delve into the rich nanostructures and atomic-s more...

Supervisor(s): Ceguerra, Anna (Dr)

Development of a CFD based numerical approach in predicting wind loads on structures

The purpose of this research is to identify alternative approaches to traditional wind tunnel based design procedure and improve the current design standards. more...

Supervisor(s): Mohotti, Damith (Dr)

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)

Damage, fracture and fragmentation of concrete at high strain rates

The project aims to characterize and model concrete at high strain rates, and to study the damage, fracture and fragmentation of concrete subjected to high rate loads through an int more...

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

Nano-Rheology and Nano-Tribology: Atomistic Simulation of Boundary Lubrication

 This research seeks to find practical ways to reduce friction in boundary lubrication regime by a novel virtual nano-tribometer/ nano-rheometer. more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Tribological properties of biopolymers in human joints

In this project we will use advanced molecular simulation techniques to model the lubrication process in synovial joints to shed light on these puzzles. more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Polymer Crystallization

Using advanced molecular simulation techniques the project seeks to establish the relationship between molecular structure and complex interplay of thermodynamic and processing para more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)