Fundamental roles of nano-particles in composite-fibre/epoxy-polymer (CF/EP) composites. There is a significant demand for value-added, innovative epoxy resins for various applications. Australia has a well established aerospace industry and world-leading expertise in synthesising and processing inorganic nano-particles. The outputs of this project will be beneficial to both material manufacturers and design engineers. Understanding the fundamental roles of functional nano-fillers will stimulate ....Fundamental roles of nano-particles in composite-fibre/epoxy-polymer (CF/EP) composites. There is a significant demand for value-added, innovative epoxy resins for various applications. Australia has a well established aerospace industry and world-leading expertise in synthesising and processing inorganic nano-particles. The outputs of this project will be beneficial to both material manufacturers and design engineers. Understanding the fundamental roles of functional nano-fillers will stimulate scientific and technological interests for future research and development of multifunctional engineering materials with improved properties and structures designed in the nano-scale. The project will give Australian researchers a technological edge over their competitors in materials science and engineering.Read moreRead less
Fracture Mechanics of Functionally Graded Materials: Coupled Thermoelectromechanical Problems. The primary goal of this project is to develop mathematical and computational models and techniques that are capable of novel design of functionally graded materials and structures that can dramatically increase the performance and reliability of artificial structures and devices. The applications areas are broad: from lightweight thermal protective coatings used in high-temperature environments to bio ....Fracture Mechanics of Functionally Graded Materials: Coupled Thermoelectromechanical Problems. The primary goal of this project is to develop mathematical and computational models and techniques that are capable of novel design of functionally graded materials and structures that can dramatically increase the performance and reliability of artificial structures and devices. The applications areas are broad: from lightweight thermal protective coatings used in high-temperature environments to biological hard tissues like bones and teeth. Efficient numerical methods will be developed to overcome difficulties encountered in material properties and loading conditions. The project will provide useful guidelines to design new, intelligent, multi-phase material systems, including biomaterial systems for biomedical applications.Read moreRead less
Designs of Periodic Microstructure Materials with Prescribed Multiphysical Properties. The evolutionary structural optimization (ESO) is an Australian initiative, which has made a significant impact on modern structural optimization. In advanced materials areas, Australia has well-established infrastructure and world-class expertise. Exploitation of ESO to advanced materials design will be of "exclusive significance" to Australia. More importantly, the new material design technology will present ....Designs of Periodic Microstructure Materials with Prescribed Multiphysical Properties. The evolutionary structural optimization (ESO) is an Australian initiative, which has made a significant impact on modern structural optimization. In advanced materials areas, Australia has well-established infrastructure and world-class expertise. Exploitation of ESO to advanced materials design will be of "exclusive significance" to Australia. More importantly, the new material design technology will present to Australia an opportunity to lead in this rapidly-growing area, which will definitely underpin Australia's standing as a major contributor and developer in a global materials market. It is expected that fresh classes of futuristic materials can be developed in a cost-effective fashion and add great economic benefits to Australia.Read moreRead less