Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668100
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
High Resolution Simultaneous DSC/DTA-TGA-FTIR System. National Research Priorities including 'New Materials' 'Frontier Technologies for Building and Transforming Australian Industries' and 'Developing Deep Earth Resources' will all be addressed and the benefits will include new materials such as carbon nanotubes and layered silicate composites. It will also contribute economically through technological development, supporting existing Australian companies in the development of more effective pro ....High Resolution Simultaneous DSC/DTA-TGA-FTIR System. National Research Priorities including 'New Materials' 'Frontier Technologies for Building and Transforming Australian Industries' and 'Developing Deep Earth Resources' will all be addressed and the benefits will include new materials such as carbon nanotubes and layered silicate composites. It will also contribute economically through technological development, supporting existing Australian companies in the development of more effective products and help keep pace with new and innovative advances in technology and to bring in vitality to strategic alliances with industry already launched by the University through a Sustainable Regions Program grant titled 'Building nanotechnology business potential in the Campbelltown-Camden region'.Read moreRead less
Properties of hydrous fluids and silicate melts at very high temperatures and pressures. High-temperature, high-pressure, water-rich fluids play a central role in many geological processes. However, these fluids are extremely difficult to characterise: although their effects are evident in many rocks, the fluids themselves are too reactive to be preserved. Here several novel techniques are described for studying the compositions and thermodynamic properties of hydrous fluids and silicate melts o ....Properties of hydrous fluids and silicate melts at very high temperatures and pressures. High-temperature, high-pressure, water-rich fluids play a central role in many geological processes. However, these fluids are extremely difficult to characterise: although their effects are evident in many rocks, the fluids themselves are too reactive to be preserved. Here several novel techniques are described for studying the compositions and thermodynamic properties of hydrous fluids and silicate melts over a wide range of geologically relevant conditions. The results of this study will greatly improve the understanding of geological processes as widely diverse as volcanism, ore deposition and metamorphism.Read moreRead less
Magmatic processes, volatiles and ore formation. A major current source of Australia's export wealth derives from mining of gold and copper ores. Many of our largest ore deposits, such as those at Mt Isa and Broken Hill, formed in paleo- environments equivalent to the active submarine volcanic arcs which we are proposing to study. Modern systems yield the vital clues to explore intelligently for fossil equivalents. We propose a two-pronged approach in world-renowned analytical and experimental l ....Magmatic processes, volatiles and ore formation. A major current source of Australia's export wealth derives from mining of gold and copper ores. Many of our largest ore deposits, such as those at Mt Isa and Broken Hill, formed in paleo- environments equivalent to the active submarine volcanic arcs which we are proposing to study. Modern systems yield the vital clues to explore intelligently for fossil equivalents. We propose a two-pronged approach in world-renowned analytical and experimental laboratories to understand active processes that will guide experimental simulations under controlled conditions. Results are critical for national economic advantage and the maintenance of Australian Earth science in the forefront of global research effort.
Read moreRead less
Accessory minerals and trace elements as monitors of partial melting and high-grade metamorphic processes in the crust. The proposed project addresses: "How do continents work?", which has been identified as a key question in the national strategic plan for geosciences. The development of new monitors for high-grade metamorphic processes and partial melting will help to understand and explore the continental crust and will provide crucial information on deep earth resources (National Research Pr ....Accessory minerals and trace elements as monitors of partial melting and high-grade metamorphic processes in the crust. The proposed project addresses: "How do continents work?", which has been identified as a key question in the national strategic plan for geosciences. The development of new monitors for high-grade metamorphic processes and partial melting will help to understand and explore the continental crust and will provide crucial information on deep earth resources (National Research Priority 1.6). Another direct potential benefit to Australia from this work is an enhancement of the country's international research reputation. The ANU is one of the world-leading research institutions in geochemistry, geochronology and experimental petrology and the outcomes of this project will ensure that Australia remains at the forefront in these disciplines.Read moreRead less
Deep Crustal Section Through a Late Archaean Orogen (Greenland): Archaean Crustal Sutures, Abyssal Peridotites and Gold. Did plate tectonics operate in Earth's early times - the Archaean (before 2500 million years ago)? This is important for understanding Australia's rich Archaean gold mineralisation. Using plate tectonics, young mountains like the European Alps formed when once distant continents collided. The project will investigate the origins of a deeply-eroded, superbly-exposed Archaean Gr ....Deep Crustal Section Through a Late Archaean Orogen (Greenland): Archaean Crustal Sutures, Abyssal Peridotites and Gold. Did plate tectonics operate in Earth's early times - the Archaean (before 2500 million years ago)? This is important for understanding Australia's rich Archaean gold mineralisation. Using plate tectonics, young mountains like the European Alps formed when once distant continents collided. The project will investigate the origins of a deeply-eroded, superbly-exposed Archaean Greenland mountain belt and its gold mineralisation. This is to establish whether it represents a deep section through an Archaean continent-continent collision formed via ancient plate tectonics and also to provide insight into Australia's important Archaean gold deposits and to produce models to help search for more gold.Read moreRead less