Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882221
Funder
Australian Research Council
Funding Amount
$580,000.00
Summary
A National Facility for Light Metal Powder Processing. Light metals research is a designated national priority and under the national Light Metals Action Agenda, Australia recognizes a strategic interest in the growth of global markets for light metals and light metal technology in key sectors such as vehicles for road, rail and marine transport; and in the production, processing and applications of the light metals. The proposed Facility will provide the critical level of investment and the str ....A National Facility for Light Metal Powder Processing. Light metals research is a designated national priority and under the national Light Metals Action Agenda, Australia recognizes a strategic interest in the growth of global markets for light metals and light metal technology in key sectors such as vehicles for road, rail and marine transport; and in the production, processing and applications of the light metals. The proposed Facility will provide the critical level of investment and the strategic national focus necessary to achieve competitive advantage in powder metallurgy processing. It will underpin substantial developments in the light metals industry nationally and globally. It will also support high profile Australian research groups.Read moreRead less
Ductile Bulk Metallic Glass Composites. Structural materials are the basic building blocks of modern society, even a small advancement can have a strong impact on our society. The properties of steel have been pushed close to the limit. The development of bulk metallic glasses (BMGs) offers the opportunity to revolutionize the field of structural materials with strengths 3 or 4 time that of steel. The proposed project, aims to overcome the major technical barrier for BMGs of insufficient ductili ....Ductile Bulk Metallic Glass Composites. Structural materials are the basic building blocks of modern society, even a small advancement can have a strong impact on our society. The properties of steel have been pushed close to the limit. The development of bulk metallic glasses (BMGs) offers the opportunity to revolutionize the field of structural materials with strengths 3 or 4 time that of steel. The proposed project, aims to overcome the major technical barrier for BMGs of insufficient ductility. The development of ductile and high strength BMGs, will position Australia and its researchers at the forefront of this exciting material innovation. The project will develop and strengthen Australia's international research linkages with overseas centres of excellence.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882948
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
Multidisciplinary 'Environmental' Field Emission Gun Scanning Electron Microscope. The present proposal is for a high resolution electron microscope for use in the development of new materials for the automotive, textile and bio-medical sectors. The new generation of automotive materials will be lighter and more crash resistant. New textiles will be 'active' in providing warmth and cooling through their conducting properties. They will also provide enhanced dynamic protection against physical ha ....Multidisciplinary 'Environmental' Field Emission Gun Scanning Electron Microscope. The present proposal is for a high resolution electron microscope for use in the development of new materials for the automotive, textile and bio-medical sectors. The new generation of automotive materials will be lighter and more crash resistant. New textiles will be 'active' in providing warmth and cooling through their conducting properties. They will also provide enhanced dynamic protection against physical harm. The facility will support the development of new cellular scaffolds made from metals and polymers. These scaffolds will be used for tissue growth and engineering. The facility will also be used to support Deakin University's regional collaborators.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
Giant magnetic hardening in flash-annealed nanocomposite magnets. One of the most important properties required for permanent magnets is the coercivity. Recent results from an international collaboration between the Chief Investigator and researchers from the Japanese materials industry have shown that rapid heating can enhance the coercivity of chromium-added iron-neodymium-boron-based nanocomposite magnets by 30 times. The aim of this project is to clarify the mechanism of this giant magnetic ....Giant magnetic hardening in flash-annealed nanocomposite magnets. One of the most important properties required for permanent magnets is the coercivity. Recent results from an international collaboration between the Chief Investigator and researchers from the Japanese materials industry have shown that rapid heating can enhance the coercivity of chromium-added iron-neodymium-boron-based nanocomposite magnets by 30 times. The aim of this project is to clarify the mechanism of this giant magnetic hardening effect and thereby establish a basis for further development of economically viable nanocomposite magnets with low neodymium content. Our novel flash-annealing process will allow exploration of new nanocomposite alloys, which may lead to Australian-owned patents.Read moreRead less
INVESTIGATION OF THE EFFECT OF ALLOYING ELEMENTS ON SHEAR BAND FORMATION DURING THE WARM ROLLING OF LOW CARBON AND INTERSTITIAL FREE STEELS. This proposal involves the application of three dimensional atom probe field ion microscopy and advanced transmission electron microscopy techniques to study the phenomena of precipitation and solute atoms' interactions with dislocations in warm rolled low carbon steels and interstitial free steels. It is intended to examine the effect of alloying addition ....INVESTIGATION OF THE EFFECT OF ALLOYING ELEMENTS ON SHEAR BAND FORMATION DURING THE WARM ROLLING OF LOW CARBON AND INTERSTITIAL FREE STEELS. This proposal involves the application of three dimensional atom probe field ion microscopy and advanced transmission electron microscopy techniques to study the phenomena of precipitation and solute atoms' interactions with dislocations in warm rolled low carbon steels and interstitial free steels. It is intended to examine the effect of alloying additions on in-grain shear bands formation, texture formation and formability of warm rolled and annealed low carbon steels. Ultimately, the project is concerned with developing of fundamental understanging of solute interactions which provide an improved basis for design of these economically significant steels.Read moreRead less
ENHANCED PERFORMANCE OF AUTOMOTIVE SHEET ALLOYS VIA CONTROL OF COMPOSITION, THERMAL PROCESSING AND NANOSTRUCTURE. This project involves characterisation using modern facilities of the form and identity of atomic-scale clusters of alloying elements in selected automotive sheet alloys that have been subjected to single and multiple ageing treatments and examination and modelling of deformation mechanisms and behaviour in such alloys. The aim is to establish the precise role of clusters of solute a ....ENHANCED PERFORMANCE OF AUTOMOTIVE SHEET ALLOYS VIA CONTROL OF COMPOSITION, THERMAL PROCESSING AND NANOSTRUCTURE. This project involves characterisation using modern facilities of the form and identity of atomic-scale clusters of alloying elements in selected automotive sheet alloys that have been subjected to single and multiple ageing treatments and examination and modelling of deformation mechanisms and behaviour in such alloys. The aim is to establish the precise role of clusters of solute atoms and vacancies in the formation of precipitate phases that control the final strength and deformation behaviour of the alloys, and to provide useful guidelines for further improvements in strength of these alloys via the control of alloy composition and of multiple ageing treatments.Read moreRead less
Engineering the kinetic stability of alloys for advanced stainless material development. A framework for understanding and designing metals and alloys with kinetic stability in mind will allow for discovery and breakthrough science to underpin technological innovation. This work has potential benefits for multiple industry sectors, with the ultimate intent of developing advanced materials for use in transport, construction, energy generation and medicine; all sectors of which can improve our qua ....Engineering the kinetic stability of alloys for advanced stainless material development. A framework for understanding and designing metals and alloys with kinetic stability in mind will allow for discovery and breakthrough science to underpin technological innovation. This work has potential benefits for multiple industry sectors, with the ultimate intent of developing advanced materials for use in transport, construction, energy generation and medicine; all sectors of which can improve our quality of life, whilst also addressing the multi-billion dollars of loss attributed to metallic corrosion each year. Such work will also benefit Australia through the development of a strategic international capability in a highly interdisciplinary field.Read moreRead less
A Novel Approach to Grain Refinement of Cast Metals. This proposal combines fundamental scientific studies with applied engineering research. The outcomes will offer materials scientists and engineers with a totally new way to understand the grain refinement of cast metals. The new scientific knowledge generated will put Australia at the absolute forefront of the field and maintain our internationally leading position. The new grain refiners and the relevant master alloys to be developed will ....A Novel Approach to Grain Refinement of Cast Metals. This proposal combines fundamental scientific studies with applied engineering research. The outcomes will offer materials scientists and engineers with a totally new way to understand the grain refinement of cast metals. The new scientific knowledge generated will put Australia at the absolute forefront of the field and maintain our internationally leading position. The new grain refiners and the relevant master alloys to be developed will have strong potential to be commercialized to produce cast metals with much improved properties and performance. This will not only increase Australian competitive ability in the international market, but will also make considerable economic benefits.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668504
Funder
Australian Research Council
Funding Amount
$648,000.00
Summary
Real-time Observation of Thermal and Mechanical Response at the Nano Level. The requested facility is an electron microscope dedicated to observing, in real-time, the nano-scale mechanisms that control the response of materials to stress and temperature. The insight provided by this facility is needed for the development of the next generation of materials, particularly "nano" materials based on particles, fibres, whiskers, nano-tubes, thin films and other micro-formed parts. These materials wil ....Real-time Observation of Thermal and Mechanical Response at the Nano Level. The requested facility is an electron microscope dedicated to observing, in real-time, the nano-scale mechanisms that control the response of materials to stress and temperature. The insight provided by this facility is needed for the development of the next generation of materials, particularly "nano" materials based on particles, fibres, whiskers, nano-tubes, thin films and other micro-formed parts. These materials will underpin the next generation of technological advances and new applications such as nano-machines. The facility will also be used to train the future scientists who will develop these exciting new technologies.Read moreRead less