Smart Materials Between Two and Three Dimensions. Shape-memory alloys involving martensitic transformations, are important as smart materials. Both the transformation nucleation and the sample morphology are unsolved issues relevant for these applications. Of particular note are the softening of certain lattice-vibrational frequencies, the development of a tweed-like microstructure on cooling the material and the role of defects, particularly the sample surface, in the transformation process. ....Smart Materials Between Two and Three Dimensions. Shape-memory alloys involving martensitic transformations, are important as smart materials. Both the transformation nucleation and the sample morphology are unsolved issues relevant for these applications. Of particular note are the softening of certain lattice-vibrational frequencies, the development of a tweed-like microstructure on cooling the material and the role of defects, particularly the sample surface, in the transformation process. This project addresses these issues using model materials in thin-film and bulk-crystal forms. Capacitance dilatometry, optical, electron and scanning-probe microscopies, and x-ray techniques, will unlock an understanding of the physical and metallurgical conditions controlling these transformations.Read moreRead less
Development of ultrafine Grained Steels. This project will develop new methods to produce steels with much finer microstructures, and investigate how these microstructures form. This will markedly increase the strength and toughness of these steels, which is particularly required for the pipeline, off shore platform and large construction industries. The method to be used involves controlling the hot deformation of the steel and control of the phase transformation during or after deformation. ....Development of ultrafine Grained Steels. This project will develop new methods to produce steels with much finer microstructures, and investigate how these microstructures form. This will markedly increase the strength and toughness of these steels, which is particularly required for the pipeline, off shore platform and large construction industries. The method to be used involves controlling the hot deformation of the steel and control of the phase transformation during or after deformation. Current work has shown that it is possible to reduce the grain size from 5 to 1microns using quite simple methods.Read moreRead less
Development of growth strategies to fabricate wide band gap ferromagnetic semiconductors for spin electronics applications. Spin Electronics technology will enable a revolutionary class of electronic devices. Gallium nitride (GaN) containing transition metals (TM) (eg Mn, Ni and Fe) is a very promising dilute magnetic semiconductor for practical spintronics applications as this material exhibits magnetic behaviour above room temperature. However, electronic and magnetic properties of this new cl ....Development of growth strategies to fabricate wide band gap ferromagnetic semiconductors for spin electronics applications. Spin Electronics technology will enable a revolutionary class of electronic devices. Gallium nitride (GaN) containing transition metals (TM) (eg Mn, Ni and Fe) is a very promising dilute magnetic semiconductor for practical spintronics applications as this material exhibits magnetic behaviour above room temperature. However, electronic and magnetic properties of this new class of semiconductors have not yet been optimised. This project aims to develop and test a new growth strategy, known as the co-doping method for the fabrication of high quality TM doped GaN. A broad range of complementary advanced spectroscopic techniques will be used to evaluate and refine this new fabrication method.Read moreRead less
Hot Rolling Model for Control of Nb Bearing Steels. High strength Nb bearing strip steels are used to reduce the weight of automotive and construction products. The manufacture of these steels is challenging because of difficulties encountered in maintaining constant properties and strip thickness. The aim of the current work is to develop a model for Nb bearing steels that describes the effect of processing conditions and composition on the microstructure evolution during hot rolling. The model ....Hot Rolling Model for Control of Nb Bearing Steels. High strength Nb bearing strip steels are used to reduce the weight of automotive and construction products. The manufacture of these steels is challenging because of difficulties encountered in maintaining constant properties and strip thickness. The aim of the current work is to develop a model for Nb bearing steels that describes the effect of processing conditions and composition on the microstructure evolution during hot rolling. The model to be developed will incorporate a new approach to describing dynamic recrystallization and will lead to better property and dimensional control. It will also assist in new grade development.Read moreRead less
Development of a Microstructure Model for Process and Product Development. It is possible to mathematically model the evolution of the microstructure of steel during hot rolling and cooling to room temperature. By linking the microstructure to the product performance these models can be used for computer based development of new products and processes. The current work involves an extension of these concepts to the Smorgon Steel minimill. The project involves the development of new equations ....Development of a Microstructure Model for Process and Product Development. It is possible to mathematically model the evolution of the microstructure of steel during hot rolling and cooling to room temperature. By linking the microstructure to the product performance these models can be used for computer based development of new products and processes. The current work involves an extension of these concepts to the Smorgon Steel minimill. The project involves the development of new equations to handle the high residual content from the use of remelted scrap and the use of these models to enhance current and future local and export grades.Read moreRead less
Development of direct-write focussed electron beam processing techniques for nano-fabrication applications. The burgeoning disciplines of nanotechnology and biotechnology have the potential to deliver breakthroughs in science and engineering that will revolutionise many aspects of everyday life. Progress in these emerging fields, however, requires parallel advances in the techniques used to fabricate, manipulate and characterise materials and devices at the nanoscale. This project will provide s ....Development of direct-write focussed electron beam processing techniques for nano-fabrication applications. The burgeoning disciplines of nanotechnology and biotechnology have the potential to deliver breakthroughs in science and engineering that will revolutionise many aspects of everyday life. Progress in these emerging fields, however, requires parallel advances in the techniques used to fabricate, manipulate and characterise materials and devices at the nanoscale. This project will provide such enabling tools and fill a major gap in the research infrastructure urgently required by these exciting new technologies.Read moreRead less
Optimisation of the electrical and optical properties of ZnO nanowires for advanced nanodevice applications. It is widely accepted that nanowires and related structures will provide the key for the construction of future functional nano-devices with unprecedented performance. In this project we will develop robust protocols for the fabrication of ZnO nanowires in the lab which can be meet the needs of specific nanotechnology and nanodevice applications and once established these growth technique ....Optimisation of the electrical and optical properties of ZnO nanowires for advanced nanodevice applications. It is widely accepted that nanowires and related structures will provide the key for the construction of future functional nano-devices with unprecedented performance. In this project we will develop robust protocols for the fabrication of ZnO nanowires in the lab which can be meet the needs of specific nanotechnology and nanodevice applications and once established these growth techniques can reconfigured for industrial scale fabrication. Development of these nanowire growth techniques will enable Australia to be at the leading edge in the rapidly emerging field of nano-science and nano-technology.Read moreRead less
Development of Low Cost, High Quality Nitrides for Solid-State Lighting and Other Power Saving Applications. The advent of high brightness, low cost, compact, low power white light-emitting diodes (LEDs) will revolutionise lighting as we currently know it. Incandescent light bulbs and fluorescent tubes are inefficient light sources and their replacement with high efficiency solid state LED lighting over the next 10 years will provide a 10% reduction in global greenhouse gas emissions. The develo ....Development of Low Cost, High Quality Nitrides for Solid-State Lighting and Other Power Saving Applications. The advent of high brightness, low cost, compact, low power white light-emitting diodes (LEDs) will revolutionise lighting as we currently know it. Incandescent light bulbs and fluorescent tubes are inefficient light sources and their replacement with high efficiency solid state LED lighting over the next 10 years will provide a 10% reduction in global greenhouse gas emissions. The development and enhancement of a recent Australian innovation for the fabrication of low cost high brightness LEDs will enable Australia to be at the frontier of this technology and to be a world leader in the next stage of its development.Read moreRead less
Tailoring superconducting hybrid multilayered film systems for electric and electronic applications. This project focuses on the development of new scientific and technological aspects of the fabrication, properties and operation of novel hybrid systems for revolutionizing electricity handling and electronics. It will also solve some existing problems of film structures with promising multilayer technology. Hybrid systems, often make the headlines in science and are gaining an increasingly promi ....Tailoring superconducting hybrid multilayered film systems for electric and electronic applications. This project focuses on the development of new scientific and technological aspects of the fabrication, properties and operation of novel hybrid systems for revolutionizing electricity handling and electronics. It will also solve some existing problems of film structures with promising multilayer technology. Hybrid systems, often make the headlines in science and are gaining an increasingly promising outlook in materials engineering, nanotechnology and electronics, promising eventual application in a broad range of industries. This project will establish Australia's capability at the forefront in this area. The outcomes predicted will benefit existing Australian companies and may establish new companies dealing with these hybrid systems.Read moreRead less
Understanding structure-property relations in amorphous silicon. The research is in a field of high national priority, namely nanotechnology and has a number of clear benefits for Australia. 1) Ensures Australia maintains its current position as a world leader in the fields of nanotechnology and material science; 2) Provides training to students in the exciting areas of synchrotron operation and nanotechnology. 3) Enables leverage for further funding from both companies and international funding ....Understanding structure-property relations in amorphous silicon. The research is in a field of high national priority, namely nanotechnology and has a number of clear benefits for Australia. 1) Ensures Australia maintains its current position as a world leader in the fields of nanotechnology and material science; 2) Provides training to students in the exciting areas of synchrotron operation and nanotechnology. 3) Enables leverage for further funding from both companies and international funding sources; and 4) Supports Australian industry by contributing to research which has resulted in the formation of a new company.Read moreRead less