Topology Optimisation for Three-dimensional Periodic Nanophotonic Structures. Three-dimensional dielectric and/or metallic nanophotonic structures are of critical importance to a wide variety of applications ranging from sensing and biomedicine to imaging and information technology. This project aims to establish effective and efficient topology optimisation algorithms for the designs of nanophotonic structures with specific functional properties. The expected outcome will be a new methodology a ....Topology Optimisation for Three-dimensional Periodic Nanophotonic Structures. Three-dimensional dielectric and/or metallic nanophotonic structures are of critical importance to a wide variety of applications ranging from sensing and biomedicine to imaging and information technology. This project aims to establish effective and efficient topology optimisation algorithms for the designs of nanophotonic structures with specific functional properties. The expected outcome will be a new methodology and an advanced design tool for scientists and engineers to create novel nanophotonic structures to improve capabilities in devices such as waveguides, sensors, optical computer chips, superlenses and so on.Read moreRead less
Behaviour and design of concrete-filled stainless steel tubular columns at ambient and elevated temperatures. Stainless steel is recognised as an advanced construction material for its merits of corrosion resistance, attractive appearance and ease of maintenance. It has enormous potential for use in steel-concrete composite construction, which will provide the structural engineering community with greater choice in terms of aesthetics, constructability, cost and sustainability. The research put ....Behaviour and design of concrete-filled stainless steel tubular columns at ambient and elevated temperatures. Stainless steel is recognised as an advanced construction material for its merits of corrosion resistance, attractive appearance and ease of maintenance. It has enormous potential for use in steel-concrete composite construction, which will provide the structural engineering community with greater choice in terms of aesthetics, constructability, cost and sustainability. The research put forward in this proposal will promote the better use of stainless steel in Australia's building, bridge and offshore infrastructure, thereby providing significant socio-economic benefits to Australia. Moreover it will greatly increase Australia's infrastructure maintenance capability.Read moreRead less
Novel cement-graphene oxide composite: understanding its composite structure via nano-mechanics based modelling and experimental tests. A high performance cement composite will be developed to reduce the usage of cement, and steel reinforcement, thus decrease carbon dioxide emissions, reduce labour costs, and promote sustainability. Modern modelling techniques will advance the knowledge in cement and concrete field and maintain the leading position of Australia.
Additive manufacturing of functionally graded geopolymers. This project aims to use contour crafting for three-dimensional printing of functionally graded geopolymer concrete. Contour crafting has been touted for producing uniform structural members made of conventional concrete mixtures. This project will develop the existing technique to produce microstructurally graded geopolymer structures and include functionally graded placement of fibre within a geopolymer matrix. It will investigate mech ....Additive manufacturing of functionally graded geopolymers. This project aims to use contour crafting for three-dimensional printing of functionally graded geopolymer concrete. Contour crafting has been touted for producing uniform structural members made of conventional concrete mixtures. This project will develop the existing technique to produce microstructurally graded geopolymer structures and include functionally graded placement of fibre within a geopolymer matrix. It will investigate mechanical, thermal and durability properties of printed composite structures. The outcome of this research could lead to cost-effective automated production of specialised structural components.Read moreRead less
Adaptive structural systems for high-performance buildings. This project aims to develop adaptive structural systems for high-performance buildings. A new theoretical platform will be instrumental in the development of building technologies such as adaptive shading and ventilation components. In a reversal of the conventional design avoidance of structural phenomena such as lateral and flexural-torsional buckling, these phenomena will be exploited to achieve functional forms for shading componen ....Adaptive structural systems for high-performance buildings. This project aims to develop adaptive structural systems for high-performance buildings. A new theoretical platform will be instrumental in the development of building technologies such as adaptive shading and ventilation components. In a reversal of the conventional design avoidance of structural phenomena such as lateral and flexural-torsional buckling, these phenomena will be exploited to achieve functional forms for shading components. Thin-metal ventilation ducts will be embedded within structural components to produce optimised ventilation strategies and to increase thermal mass, while accounting for their structural contribution.Read moreRead less