Special Research Initiatives - Grant ID: SR0354509
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
China's Asia-Pacific Century: Enhancing Australia's Engagement. The emerging regional economic sphere of China, Taiwan and Hong Kong, encompassing close to a quarter of humankind, is fast becoming one of the world's two major powerhouses--and a potential locus for international conflict. Australia contains a very large and robust field of hundreds of modern China specialists--as many as all of Europe--but we are very spread out geographically and divided among twenty disciplines. There is a pate ....China's Asia-Pacific Century: Enhancing Australia's Engagement. The emerging regional economic sphere of China, Taiwan and Hong Kong, encompassing close to a quarter of humankind, is fast becoming one of the world's two major powerhouses--and a potential locus for international conflict. Australia contains a very large and robust field of hundreds of modern China specialists--as many as all of Europe--but we are very spread out geographically and divided among twenty disciplines. There is a patent, felt need for concerted, collaborative, multi-disciplinary research and analysis, as a wide range of important potential synergies exist.Read moreRead less
An investigation of novel Microelectromechanical Systems based technologies for visible/near infra-red spectroscopic imaging. This project will develop new spectroscopic imaging technologies that make possible low-cost, portable instruments with enhanced performance, and that enable new applications. Examples include on-farm precision agriculture, skin cancer detection, food security and processing, airport security, pollution monitoring and industrial process control.
Emerging technologies of warfare as a challenge to the law of armed conflict: cyber-attacks, robotics and nanotechnology. In order to reduce suffering in war, international law places limits on the ways in which the adversary can be harmed. This project will assess how the law fares in dealing with emerging technologies, such as hostile uses of computer networks, robotics and nanotechnology. It will provide guidance to policy makers on how the law can be improved.
Experimental validation of the strain invariant failure theory for carbon/epoxy composites. The project will be of national and international benefit, through providing a validated, enhanced design capability for advanced composite materials. Greater depth of understanding of such materials will allow more efficient structures to be designed in applications requiring high strength and stiffness, low weight, and resistance to corrosion and fatigue. Such applications include the aerospace, offshor ....Experimental validation of the strain invariant failure theory for carbon/epoxy composites. The project will be of national and international benefit, through providing a validated, enhanced design capability for advanced composite materials. Greater depth of understanding of such materials will allow more efficient structures to be designed in applications requiring high strength and stiffness, low weight, and resistance to corrosion and fatigue. Such applications include the aerospace, offshore and mining industries. There are, therefore, far-reaching benefits in industries important to Australia. In addition, the reputation of the Australian aerospace research industry will be promoted through a collaborative association with Boeing, a world leader in development of commercial aircraft.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100139
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
A Hot Isostatic Press (HIP) for aerospace and biomedical component processing. This facility will provide a hot isostatic press of sufficiently large capacity to maximise production efficiencies in aerospace and biomedical applications through net shape manufacturing. The facility will be able to process small components or prototypes which will behave in a manner similar to larger scale components.
Controllable growth of magnetic semiconductor quantum dots for future spintronic and optoelectronic devices. This project aims to develop high quality magnetic semiconductor materials for next generation magnetic and optoelectronic devices. Outcomes of this project will lead to advanced applications in light-emitting diodes and information technology, such as high density hard drivers and low dissipation quantum computers.
Discovery Early Career Researcher Award - Grant ID: DE140101085
Funder
Australian Research Council
Funding Amount
$370,789.00
Summary
Privatizing Maritime Security in Southeast Asia: Drivers and Consequences. In contemporary Southeast Asia, key maritime security roles have been contracted out to private military and security companies. These companies are largely unstudied by scholars and often unaccountable to the public. This project will consider: the kind of work conducted by private military and security companies in maritime Southeast Asia; the global and local structural and political factors, which lead to the privatis ....Privatizing Maritime Security in Southeast Asia: Drivers and Consequences. In contemporary Southeast Asia, key maritime security roles have been contracted out to private military and security companies. These companies are largely unstudied by scholars and often unaccountable to the public. This project will consider: the kind of work conducted by private military and security companies in maritime Southeast Asia; the global and local structural and political factors, which lead to the privatisation of maritime security; and, the implications for security governance. Considering these issues will provide a more comprehensive understanding of the security sectors of Southeast Asian countries and will allow a more precise assessment of the maritime security situation in this region.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102277
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Design optimisation and physical behaviour of fuel injection and mixing for innovative scramjet concepts. Scramjets are a potential game changer for satellite launch and high speed flight. The phenomena that will make or break them are complex, and achieving optimal designs is hugely challenging. This project combines advanced optimisation techniques and flow simulations to find, and understand, optimal fuel injection for innovative scramjet designs.
Discovery Early Career Researcher Award - Grant ID: DE140100932
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Hypervelocity Roughness-Induced Laminar-Turbulent Transition for Advanced Scramjet Flow Control. Scramjet technology is set to make air-breathing flight beyond five times the speed of sound a reality. At such speeds, complex aerodynamic phenomena are likely to cause flow separation in the scramjet, hence significantly affecting its operability. This project will establish the applicability of discrete surface micro-roughness elements to induce the laminar-turbulent transition of hypervelocity bo ....Hypervelocity Roughness-Induced Laminar-Turbulent Transition for Advanced Scramjet Flow Control. Scramjet technology is set to make air-breathing flight beyond five times the speed of sound a reality. At such speeds, complex aerodynamic phenomena are likely to cause flow separation in the scramjet, hence significantly affecting its operability. This project will establish the applicability of discrete surface micro-roughness elements to induce the laminar-turbulent transition of hypervelocity boundary layers, with the purpose of energising the surface flow entering the engine so that it can sustain higher adverse pressure gradients without separating. This project will undertake a targeted ground test program to characterise the physical mechanisms of hypervelocity roughness-induced laminar-turbulent transition.Read moreRead less
Heteronuclear parallel imaging and spectroscopy for magnetic resonance. This project will develop novel imaging technology for improved interrogation of biological processes in living tissue. Successful outcomes of this project are expected to contribute significantly to biomedical research efforts, such as improved early detection and treatment of cancer and chronic disease.