Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668257
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
Combinatorial Deposition and Characterisation Facility for New Alloy Thin Film Materials. Australia's competitive edge in materials research is key to maintaining our economic prosperity. Infrastructure that enables our researchers to synthesize novel materials with precise control over composition and structure is crucial to maintaining our strengths in this field. The proposed infrastructure will accelerate progress on the preparation and characterisation of new alloy and nanostructured materi ....Combinatorial Deposition and Characterisation Facility for New Alloy Thin Film Materials. Australia's competitive edge in materials research is key to maintaining our economic prosperity. Infrastructure that enables our researchers to synthesize novel materials with precise control over composition and structure is crucial to maintaining our strengths in this field. The proposed infrastructure will accelerate progress on the preparation and characterisation of new alloy and nanostructured materials and will pay dividends by providing early access to the best materials. This will give our energy technology, biomedical engineering, tooling, electronics and mining industries a competitive edge. Access to this new generation equipment will enhance our pool of highly skilled materials technologists.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989861
Funder
Australian Research Council
Funding Amount
$650,000.00
Summary
Electron Microscopes for Nanometer-Scale Imaging/Microanalysis in the Materials, Biological, Physical, Engineering and Chemical Sciences. Electron microscopes have contributed to many of the most significant discoveries and technological advances of the last 6 decades. High resolution transmission and scanning electron microscopes have become essential research infrastructure in internationally competitive materials science, biology, bio-medical science, physics, chemistry and a broad range of e ....Electron Microscopes for Nanometer-Scale Imaging/Microanalysis in the Materials, Biological, Physical, Engineering and Chemical Sciences. Electron microscopes have contributed to many of the most significant discoveries and technological advances of the last 6 decades. High resolution transmission and scanning electron microscopes have become essential research infrastructure in internationally competitive materials science, biology, bio-medical science, physics, chemistry and a broad range of engineering disciplines. This capability is not currently available in the Newcastle, Hunter, Central and Lower North Coast and New England regions. This proposal is aimed at satisfying the considerable demand for high resolution microscopy in these areas leading to high quality research outcomes across 3 National Research Priorities and a strong contribution to research training.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775643
Funder
Australian Research Council
Funding Amount
$380,000.00
Summary
A multiscale system for characterizing surface and subsurface properties of advanced materials. The installation of the proposed equipment will greatly strengthen the research capability and capacity of the leading Australian teams in the frontier areas of multiscale manufacturing and advanced materials technology. This will in turn lead to more significant innovations and sharpen Australia's competitive edge internationally. The facility will enable the advanced training of students and enginee ....A multiscale system for characterizing surface and subsurface properties of advanced materials. The installation of the proposed equipment will greatly strengthen the research capability and capacity of the leading Australian teams in the frontier areas of multiscale manufacturing and advanced materials technology. This will in turn lead to more significant innovations and sharpen Australia's competitive edge internationally. The facility will enable the advanced training of students and engineers most needed by the country. Read moreRead less
New nanolaminate ternary and quaternary alloy phases by thin film synthesis. The availability of suitable materials is a driver of new technologies. We will develop a new class of ternary and quaternary alloys with nanolaminate structures at the atomic scale using a combination of theoretical modeling, novel thin film synthesis and advanced characterization methods. The nanostructure of these materials is expected to promote a rare combination of metallic and ceramic like properties, such as low ....New nanolaminate ternary and quaternary alloy phases by thin film synthesis. The availability of suitable materials is a driver of new technologies. We will develop a new class of ternary and quaternary alloys with nanolaminate structures at the atomic scale using a combination of theoretical modeling, novel thin film synthesis and advanced characterization methods. The nanostructure of these materials is expected to promote a rare combination of metallic and ceramic like properties, such as low friction, high mechanical strength, resistance to heat shock, fracture, corrosion and oxidation, up to very high temperatures. Careful characterisation of the growth process and structure-property relationships will allow us to develop methods of tailoring the property mix for operation in harsh environments.Read moreRead less
ARC Centre of Excellence - Design in Light Metals. Under the national 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 Centre will provide the national focus in strategic fundamental research, the critical level of investment and the level of innovation necessary to achieve competiti ....ARC Centre of Excellence - Design in Light Metals. Under the national 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 Centre will provide the national focus in strategic fundamental research, the critical level of investment and the level of innovation necessary to achieve competitive advantage from an outstanding research base. As a major contributor to a strategic network of national research capabilities, it will underpin substantial developments in the light metals industry nationally and globally, and extend linkages with major research centres internationally.Read moreRead less
"Metal dusting" of austenitic alloys: mechanisms and interventions. "Metal dusting" is a catastrophic form of metal corrosion which we do not yet understand. It affects industries important to Australia: reforming of natural gas and (potentially) ceramic oxide fuel cells. This project aims to understand the process of austenitic alloy dusting, and thereby design materials to resist this form of attack. This will allow new natural gas processing industries in Australia to be internationally compe ...."Metal dusting" of austenitic alloys: mechanisms and interventions. "Metal dusting" is a catastrophic form of metal corrosion which we do not yet understand. It affects industries important to Australia: reforming of natural gas and (potentially) ceramic oxide fuel cells. This project aims to understand the process of austenitic alloy dusting, and thereby design materials to resist this form of attack. This will allow new natural gas processing industries in Australia to be internationally competitive.
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Intelligent Materials Processing: Microstructure And Texture Control In Bcc Metals. In Australia, steel companies are continuing to search for cost effective steel compositions and processing routes. Concurrently, applications for Ti alloys in chemical, medical and aerospace industries are continuing to widen. As an outcome of this project, the basis for the optimisation of processing routes in order to achieve enhanced product properties at lower cost will be established. In the course of this ....Intelligent Materials Processing: Microstructure And Texture Control In Bcc Metals. In Australia, steel companies are continuing to search for cost effective steel compositions and processing routes. Concurrently, applications for Ti alloys in chemical, medical and aerospace industries are continuing to widen. As an outcome of this project, the basis for the optimisation of processing routes in order to achieve enhanced product properties at lower cost will be established. In the course of this work, a new model for the prediction of microstructure and texture evolution during recrystallisation will be developed and new process routes will be designed. Read moreRead less
Special Research Initiatives - Grant ID: SR0354521
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Network for Advanced Materials for Engineering Applications. Advances in modern technology and a competitive manufacturing industry depend critically on new and improved materials. The pace of change is rapid, and many countries are taking steps to improve and coordinate developments. Australia has a very successful record of materials research and innovation and is developing a substantial infrastructure in the area. However, the materials research community is scattered, and research effect ....Network for Advanced Materials for Engineering Applications. Advances in modern technology and a competitive manufacturing industry depend critically on new and improved materials. The pace of change is rapid, and many countries are taking steps to improve and coordinate developments. Australia has a very successful record of materials research and innovation and is developing a substantial infrastructure in the area. However, the materials research community is scattered, and research effectiveness is sometimes lessened by a lack of critical mass. This network will bring together university, government and industry researchers, and promote collaborative research, access to each other's facilities, staff and student exchanges, improved access to existing infrastructure and coordinated planning for new acquisitions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882926
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Transmission Electron Microscope-Nanoindenter for Nano-Mechanical Testing. A transmission electron microscope (TEM)-nanoindenter enables us to record simultaneously the mechanical behaviour of materials under force and their structures and structural evolutions at sub-nanometre resolution. The acquisition of a TEM-nanoindenter will significantly enhance the capability of investigating the structural effect on the behaviour of materials under applied force, which is a key issue in materials scien ....Transmission Electron Microscope-Nanoindenter for Nano-Mechanical Testing. A transmission electron microscope (TEM)-nanoindenter enables us to record simultaneously the mechanical behaviour of materials under force and their structures and structural evolutions at sub-nanometre resolution. The acquisition of a TEM-nanoindenter will significantly enhance the capability of investigating the structural effect on the behaviour of materials under applied force, which is a key issue in materials science and engineering. The results obtained using the TEM-nanoindenter will reveal the fundamental origins of materials mechanical properties and will be used to improve materials processing procedures and to guide the design of stronger and lighter materials for structural applications.Read moreRead less
Structure-Activity Relationships in Silicon-based Photovoltaics Through Atomic Scale Microscopy. This project aims to develop new design principles for silicon-based photovoltaics (PVs) through a comprehensive study of atomic-scale structures and phenomena in PV materials. The development of more efficient photovoltaic materials is of major global importance, given the pressing need for clean and renewable sources of energy. Australia has international leadership in developing solar cell technol ....Structure-Activity Relationships in Silicon-based Photovoltaics Through Atomic Scale Microscopy. This project aims to develop new design principles for silicon-based photovoltaics (PVs) through a comprehensive study of atomic-scale structures and phenomena in PV materials. The development of more efficient photovoltaic materials is of major global importance, given the pressing need for clean and renewable sources of energy. Australia has international leadership in developing solar cell technologies, and the ideal natural environment to exploit these technologies. The fundamental insights derived in this project, such as detailed 3D maps of dopant distributions at the atomic scale, will bolster Australia's international reputation in the field and provide better control in the design of PV devices. Read moreRead less