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Seismic wavespeeds and attenuation in upper-mantle rocks: a laboratory study of the effect of partial melting. The influence of partial melting on the seismic properties of the Earth's upper mantle will be explored through a laboratory study. Synthetic rock specimens consisting of the upper-mantle mineral olivine and a small proportion of basaltic magma will be prepared and their grain-scale melt distribution will be characterised. The seismic properties of these materials will be measured at ....Seismic wavespeeds and attenuation in upper-mantle rocks: a laboratory study of the effect of partial melting. The influence of partial melting on the seismic properties of the Earth's upper mantle will be explored through a laboratory study. Synthetic rock specimens consisting of the upper-mantle mineral olivine and a small proportion of basaltic magma will be prepared and their grain-scale melt distribution will be characterised. The seismic properties of these materials will be measured at high temperatures and seismic frequencies with novel locally developed equipment. Comparison with melt-free equivalents will allow the influence of the added magma to be quantified, allowing robust interpretation of seismological models of Earth structure with implications for its chemical and dynamical evolution.Read moreRead less
Artificial Proteins for the Control of Colloid and Surface Properties. A large amount of Australia's wealth arises from mining and the processing of small (colloidal) particles. This project will develop new coatings for particles, which will allow better control of the properties of particle suspensions. Control of surface properties is also important in the preparation of ceramics and in the preparation of implants and biosensors. The development of new coatings will also offer opportunitie ....Artificial Proteins for the Control of Colloid and Surface Properties. A large amount of Australia's wealth arises from mining and the processing of small (colloidal) particles. This project will develop new coatings for particles, which will allow better control of the properties of particle suspensions. Control of surface properties is also important in the preparation of ceramics and in the preparation of implants and biosensors. The development of new coatings will also offer opportunities for improved performance in these areas.
Many existing coating technologies rely on procedures using organic solvents, which are hazardous to human health and the environment. The proposed research will develop coatings that are made and used in solutions of water only, thereby minimizing pollution production.
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The Role of Hydrous Fluids in Fault Processes: An Experimental Study. The proposed project seeks to understand how hydrothermal reactions in fault zones affect various physical properties such as fault strength and permeability. The project will be conducted by performing high pressure experiments which simulate natural conditions. I will also develop new analytical techniques to characterize the microstructural evolution of faults, with a focus on understanding how any changes alter the hydrolo ....The Role of Hydrous Fluids in Fault Processes: An Experimental Study. The proposed project seeks to understand how hydrothermal reactions in fault zones affect various physical properties such as fault strength and permeability. The project will be conducted by performing high pressure experiments which simulate natural conditions. I will also develop new analytical techniques to characterize the microstructural evolution of faults, with a focus on understanding how any changes alter the hydrologic behaviour of the fault. This study will shed much needed information related to the mechanisms of earthquake nucleation, and to the formation mechanism of fault-hosted gold deposits.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775592
Funder
Australian Research Council
Funding Amount
$388,000.00
Summary
A High Resolution Analytical Scanning Electron Microscope for South-East Queensland. Scanning electron microscopy is the major visualization tool for a diverse range of research disciplines. This new generation of instrument will be able to image features close to atomic resolution and obtain quantitative analytical information from regions only a few atoms across. Because of the nature of the way the electron beam is produced, the new instrument will be able to examine particularly sensitive ma ....A High Resolution Analytical Scanning Electron Microscope for South-East Queensland. Scanning electron microscopy is the major visualization tool for a diverse range of research disciplines. This new generation of instrument will be able to image features close to atomic resolution and obtain quantitative analytical information from regions only a few atoms across. Because of the nature of the way the electron beam is produced, the new instrument will be able to examine particularly sensitive materials, such as soft bio-materials, without any loss in resolving power. This machine will be unique in Australia and be available to researchers from diverse fields of study working towards building and transforming Australian Industries and underpinning scientific discovery in nanotechnology, materials science and bioengineering.Read moreRead less
The cutting edge: Investigating the use of shell as a raw material by Australasian hominins. Australasia has tended to exist on the periphery of major debates surrounding human evolution. There is little justification why this should be the case, and Australasia has much to contribute with insights into adaptations to island and tropical environments, and the use of novel raw materials for artefact production. Such enquiries not only help us understand the place of early Australasians within ....The cutting edge: Investigating the use of shell as a raw material by Australasian hominins. Australasia has tended to exist on the periphery of major debates surrounding human evolution. There is little justification why this should be the case, and Australasia has much to contribute with insights into adaptations to island and tropical environments, and the use of novel raw materials for artefact production. Such enquiries not only help us understand the place of early Australasians within a global framework, but assist us in understanding the unique challenges and opportunities afforded by this region. The regional and European research linkages developed and enhanced by this project ensure that such knowledge is not only 'owned' by Australasians, but is incorporated into global thinking. Read moreRead less
Sustainable usage of dredged clay materials as land reclamation fills. Millions of cubic metres of dredged materials are removed from river and sea beds every year in dredging projects. It is common to dump a significant portion of the dredged spoils into the sea which can result in serious environmental problems such as deterioration of water quality, damage to aquatic habitats, disruption of ecosystems and dispersion of fine clay particles in seawater. The proposed use of dredged clays as land ....Sustainable usage of dredged clay materials as land reclamation fills. Millions of cubic metres of dredged materials are removed from river and sea beds every year in dredging projects. It is common to dump a significant portion of the dredged spoils into the sea which can result in serious environmental problems such as deterioration of water quality, damage to aquatic habitats, disruption of ecosystems and dispersion of fine clay particles in seawater. The proposed use of dredged clays as land reclamation fill will lead to a substantial reduction in or even eliminate the need for dumping dredged clays into offshore dumping locations. The stabilized dredged clays have great potential if their geotechnical characteristics are adequately understood.Read moreRead less
Fundamental theoretical investigation of the chemomechanical properties of clays. Australia faces significant environmental challenges, one of the most important being soil degradation. The aim of this project is to develop new and state-of-the art mathematical models describing the behaviour of clays in soils. This proposal addresses five fundamental problems in clay soil behaviour that have so far remained unanswered. The primary outcomes of this project will be new theoretical insights into t ....Fundamental theoretical investigation of the chemomechanical properties of clays. Australia faces significant environmental challenges, one of the most important being soil degradation. The aim of this project is to develop new and state-of-the art mathematical models describing the behaviour of clays in soils. This proposal addresses five fundamental problems in clay soil behaviour that have so far remained unanswered. The primary outcomes of this project will be new theoretical insights into the chemomechanical properties of clay soils, so providing the understanding required to intelligently engineer and manage our natural and built environments.Read moreRead less
Electroacoustic and Acoustic Characterisation of Nanoporous Colloids. Nanoporous materials have an enormous technological importance in many different industries, both traditional and advanced. New technologies require new materials, which are being produced in thousands of laboratories worldwide. The methods for characterising these materials are slow and expensive. A new suite of measurements will be developed, based on acoustic methods, that is rapid and relatively inexpensive. It will not o ....Electroacoustic and Acoustic Characterisation of Nanoporous Colloids. Nanoporous materials have an enormous technological importance in many different industries, both traditional and advanced. New technologies require new materials, which are being produced in thousands of laboratories worldwide. The methods for characterising these materials are slow and expensive. A new suite of measurements will be developed, based on acoustic methods, that is rapid and relatively inexpensive. It will not only give parameters such as particle size, porosity and pore size, which are complementary to existing methods, but also important new information about charge and conductivity that is not presently available.Read moreRead less
Structure of Water-Based Polymer and Surfactant Lubricant Layers. The aim of this work is to understand the structures formed by mixtures of polymers and surfactant (detergent or soap) on solid surfaces, and especially how this structure affects the performance of the mixed layer as a lubricant. We will investigate a variety of polymer and surfactant molecules and their mixtures, determining the structure directly by atomic force microscopy imaging and measuring the sliding and adhesive forces ....Structure of Water-Based Polymer and Surfactant Lubricant Layers. The aim of this work is to understand the structures formed by mixtures of polymers and surfactant (detergent or soap) on solid surfaces, and especially how this structure affects the performance of the mixed layer as a lubricant. We will investigate a variety of polymer and surfactant molecules and their mixtures, determining the structure directly by atomic force microscopy imaging and measuring the sliding and adhesive forces using the surface force appararus. This will enable us to better understand water-based lubricants and design new lubricating layers.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346882
Funder
Australian Research Council
Funding Amount
$296,000.00
Summary
A Micro-CT facility for non-destructive 3D X-ray microscopy of opaque materials. This project will establish a Micro-CT facility for non-destructive 3D X-ray microscopy of the internal structure of materials. The facility will support research from a broad spectrum of disciplines and extend regional microscopy and microanalysis capabilities. With a resolution of 1.8µm this instrument will provide 3D images with virtually no sample preparation. The range of materials that this applies to includes ....A Micro-CT facility for non-destructive 3D X-ray microscopy of opaque materials. This project will establish a Micro-CT facility for non-destructive 3D X-ray microscopy of the internal structure of materials. The facility will support research from a broad spectrum of disciplines and extend regional microscopy and microanalysis capabilities. With a resolution of 1.8µm this instrument will provide 3D images with virtually no sample preparation. The range of materials that this applies to includes minerals, wood, biomaterials, polymers, composites, archaeological ceramics and mummified tissue, and biological materials such as bone, teeth and coral. This facilitates research which had been considered too difficult because of the sample preparation needed to examine internal structure.
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