Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560705
Funder
Australian Research Council
Funding Amount
$825,000.00
Summary
Advanced Deformation Simulation Laboratory. For Australia to maintain its position as a world leader in the science of metals processing it must have the capability for state-of-the-art physical simulation. The present proposal is for the purchase and installation of two leading edge simulation tools: a high rate/short inter-pass hot deformation simulator and a hot equal channel angular extrusion press. Advanced hot deformation simulation is required for the development and optimisation of "fast ....Advanced Deformation Simulation Laboratory. For Australia to maintain its position as a world leader in the science of metals processing it must have the capability for state-of-the-art physical simulation. The present proposal is for the purchase and installation of two leading edge simulation tools: a high rate/short inter-pass hot deformation simulator and a hot equal channel angular extrusion press. Advanced hot deformation simulation is required for the development and optimisation of "fast" industrial processes and for understanding the complex microstructural reactions associated with them. High temperature extrusion is required for the development of ultra-fine and nano-grained light metals.Read moreRead less
Design in Nanostructured Materials - Formation and Stability of Nanostructure in Light Alloys and Light Metal Hybrids. Under its Light Metals Action Agenda, Australia recognizes a strategic interest in the production, processing and applications of the light metals, and a growth in global markets for light metals technology. Light metals research is a designated national priority, and this program will advance an established international leadership in the design and downstream processing of the ....Design in Nanostructured Materials - Formation and Stability of Nanostructure in Light Alloys and Light Metal Hybrids. Under its Light Metals Action Agenda, Australia recognizes a strategic interest in the production, processing and applications of the light metals, and a growth in global markets for light metals technology. Light metals research is a designated national priority, and this program will advance an established international leadership in the design and downstream processing of the light alloys. It will also provide leadership in a new national research activity in light metal hybrid structures, targeted at innovation in materials design and the expansion of markets for the light metals. It will underpin major developments in the light metals industry nationally and globally, and extend linkages with major research centres internationally.Read moreRead less
States of Aggregation - Clustering, Segregation, Nucleation and Nanostructure. High strength light alloys are nanostructured materials, deriving their mechanical properties from nanoscale dispersions of strengthening precipitate phases controlled by alloy composition and thermomechanical processing. Atom-probe field-ion microscopy and high-resolution electron microscopy will be combined to study the aggregation of solute atoms that precedes formation of the precipitate phases. Experimental st ....States of Aggregation - Clustering, Segregation, Nucleation and Nanostructure. High strength light alloys are nanostructured materials, deriving their mechanical properties from nanoscale dispersions of strengthening precipitate phases controlled by alloy composition and thermomechanical processing. Atom-probe field-ion microscopy and high-resolution electron microscopy will be combined to study the aggregation of solute atoms that precedes formation of the precipitate phases. Experimental studies at high spatial resolution will be complemented by elastic strain energy calculations and first-principles modelling of the aggregation behaviour, to define its role in controlling precipitation processes and thus properties. The work will provide a basis for improved alloy design and a platform for computer-aided design of high-performance alloys.Read moreRead less
Advanced products through multiscale microstructure engineering. The metals manufacturing industry is one of the most important in Australia. Future growth and sustainability of the sector is critically dependent on the development of innovative metal products and materials.. In this program Australia's leading research group in metal manufacturing will develop new products and processes through the controlled manipulation of the microstructure at a number of levels: from nano scale to macro s ....Advanced products through multiscale microstructure engineering. The metals manufacturing industry is one of the most important in Australia. Future growth and sustainability of the sector is critically dependent on the development of innovative metal products and materials.. In this program Australia's leading research group in metal manufacturing will develop new products and processes through the controlled manipulation of the microstructure at a number of levels: from nano scale to macro scale. The areas of application include the automotive industry, biomaterials, surface engineering and the emerging area of microforming technologiesRead moreRead less
Corrosion Resistance of Nanocrystalline Materials. Novel structure and the associated unique properties of nanostructured materials confer potentials for their exciting industrial applications, such as drug delivery to specified locations for cancer treatment, exceptionally high sensitivity sensors, miniaturisation in computers/electronic/communication industry, nano electro-mechanical systems, catalytic applications and exceptionally high strength materials. In most of the applications, the nan ....Corrosion Resistance of Nanocrystalline Materials. Novel structure and the associated unique properties of nanostructured materials confer potentials for their exciting industrial applications, such as drug delivery to specified locations for cancer treatment, exceptionally high sensitivity sensors, miniaturisation in computers/electronic/communication industry, nano electro-mechanical systems, catalytic applications and exceptionally high strength materials. In most of the applications, the nanomaterials have to demonstrate acceptable corrosion resistance in the operation environment. However, corrosion resistance of nanostructured materials has not been investigated. The proposal will investigate the mechanistic aspect of localized corrosion and cracking of nanostructured materials.Read moreRead less
Nanolayer Degradation Deposits on Cold Rolled Steel Strip: The Influence of Rolling Oil Emulsions in Sequential Oxidative and Reductive Environments. Cold rolled steel strip, produced by BHP Steel, is a precursor material for production of internationally recognised Australian products ZINCALUMER Steel and COLORBONDR Steel. Lubricating oils supplied by Quaker Chemical are used during the cold rolling process. When exposed to the direct fired annealing process, nanolayer surface residues can de ....Nanolayer Degradation Deposits on Cold Rolled Steel Strip: The Influence of Rolling Oil Emulsions in Sequential Oxidative and Reductive Environments. Cold rolled steel strip, produced by BHP Steel, is a precursor material for production of internationally recognised Australian products ZINCALUMER Steel and COLORBONDR Steel. Lubricating oils supplied by Quaker Chemical are used during the cold rolling process. When exposed to the direct fired annealing process, nanolayer surface residues can develop from rolling oil films and adversely affect subsequent steel surface wetting by the molten zinc alloy. This collaborative research project will investigate the fundamental nature of nanolayer residue formation, using advanced thermal and surface analysis techniques, with the aim of determining the factors influencing residue formation and reducing their impact.Read moreRead less
Special Research Initiatives - Grant ID: SR0354656
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Particulate Science and Technology Network. Particulate Science and Technology (PST) is a rapidly developing interdisciplinary research field concerned with particle-related phenomena at different time and length scales and represents a very significant research and development effort in Australia for many years. This network is formed by linking the world-recognized research centres/groups with different expertise. Its aim is to provide greater collaboration among the Australian and overseas re ....Particulate Science and Technology Network. Particulate Science and Technology (PST) is a rapidly developing interdisciplinary research field concerned with particle-related phenomena at different time and length scales and represents a very significant research and development effort in Australia for many years. This network is formed by linking the world-recognized research centres/groups with different expertise. Its aim is to provide greater collaboration among the Australian and overseas researchers and enhance the scale and focus of particulate research. It will help develop and maintain Australia's leading position in PST, generating massive research outcomes and training that can lead to improvement in resource, energy, process and allied industries.Read moreRead less
Nanostructured films for optical document security. This project aims to develop a new class of synthetic thin films, with unique optical signatures as strong anti-counterfeiting features for future generations of Australian banknotes. The project expects to produce novel, ultra-thin films patterned on the nanoscale that produce vivid, easily recognisable optical effects building on recent advances in nanophotonic optical design and scalable nanofabrication strategies. The development of a range ....Nanostructured films for optical document security. This project aims to develop a new class of synthetic thin films, with unique optical signatures as strong anti-counterfeiting features for future generations of Australian banknotes. The project expects to produce novel, ultra-thin films patterned on the nanoscale that produce vivid, easily recognisable optical effects building on recent advances in nanophotonic optical design and scalable nanofabrication strategies. The development of a range of optical security features in Australia will ensure long-term confidence in our currency. An outcome of the project could be the commercialisation of new types of anti-counterfeiting features for use in Australia and overseas.Read moreRead less
Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excel ....Nanostructured Carbon Electrodes. The development of higher capacity energy storage devices is critical to the efficient use of energy. The fundamental knowledge gained in this project will enable the production of the next generation advanced electrode materials for this purpose and hence provide many new commercial opportunities for Australian industry. The project brings together world leaders in their own fields to address a highly multidisciplinary area of research and will provide an excellent training for PhD students and post doctoral Research Fellows, enabling them to work in and contribute to the development of new nanotechnology industries in Australia.Read moreRead less
Novel 3D Carbon Architectures for Fuel Cell Applications. The implementation of clean energy technologies has clear economic, environmental and social benefits for Australia, its industries and population. This project has the potential to make a significant impact on fuel cell research as an alternative means of energy production. We aim to remove some of the technical and economic barriers through product and process innovation at the nanoscale. Building on a strong track record in advanced ma ....Novel 3D Carbon Architectures for Fuel Cell Applications. The implementation of clean energy technologies has clear economic, environmental and social benefits for Australia, its industries and population. This project has the potential to make a significant impact on fuel cell research as an alternative means of energy production. We aim to remove some of the technical and economic barriers through product and process innovation at the nanoscale. Building on a strong track record in advanced materials research, this project investigates the integration of novel carbon nanostructures with extraordinary properties to produce high performance electrodes, that should lead to significant improvement in fuel cell performance.Read moreRead less