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Development of high-temperature superconducting coated conductors by pulsed-laser deposition technique for future long-length applications. The aim of the project is to develop a novel technology for manufacturing flexible coated conductors with the help of a pulsed laser deposition technique, in order to enhance the current-carrying ability of high-temperature superconducting coatings (including multi-layered coatings) for future long-length high power applications. To achieve desirable electr ....Development of high-temperature superconducting coated conductors by pulsed-laser deposition technique for future long-length applications. The aim of the project is to develop a novel technology for manufacturing flexible coated conductors with the help of a pulsed laser deposition technique, in order to enhance the current-carrying ability of high-temperature superconducting coatings (including multi-layered coatings) for future long-length high power applications. To achieve desirable electromagnetic properties governed by the nano-structures of the coatings, a well-balanced combination of world-class "global" and "local" electromagnetic property measurements with advanced structural characterisations is suggested. It is expected that a controlled network of nano-scale pinning centres will allow the development of high performance coated conductors.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775559
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
16 Tesla Physical Property Measurement System (PPMS). Success of this proposal will enhance national and international collaboration through access to the proposed 16-Tesla PPMS by a large number of collaborating groups. This state-the-art facility will substantially enhance the materials characterisation capability of Australia. Equipped with this 16-Tesla PPMS and other related facilities the Institute for Superconducting and Electronic Materials at the University of Wollongong will continue a ....16 Tesla Physical Property Measurement System (PPMS). Success of this proposal will enhance national and international collaboration through access to the proposed 16-Tesla PPMS by a large number of collaborating groups. This state-the-art facility will substantially enhance the materials characterisation capability of Australia. Equipped with this 16-Tesla PPMS and other related facilities the Institute for Superconducting and Electronic Materials at the University of Wollongong will continue as an important national and international centre for physical property characterisation. It will allow Australian researchers to remain competitive in this important of materials research.Read moreRead less
Development of conductive buffer layers for RABiTS-based coated conductors. YBCO coated conductor has already been identified and developed as far as second generation HTS wire in power applications. Major advances have been made in the last 10 years in coated conductor development mainly in all aspects: substrate, buffer layer and YBCO layer. The research on conductive buffers layer will improve and expand the R&D on coated conductor in Australia. On the economic side, dramatic advantages and s ....Development of conductive buffer layers for RABiTS-based coated conductors. YBCO coated conductor has already been identified and developed as far as second generation HTS wire in power applications. Major advances have been made in the last 10 years in coated conductor development mainly in all aspects: substrate, buffer layer and YBCO layer. The research on conductive buffers layer will improve and expand the R&D on coated conductor in Australia. On the economic side, dramatic advantages and savings could be achieved if the coated conductors can be put to use. Superconductivity can have a significant role in deregulated electricity markets and in lessening CO2 emissions and other environmental impacts.Read moreRead less
Fabrication of high quality MgB2 superconductor. Superconductors are electrical resistance free materials. They have great potential for power applications. Nowadays, superconductors have been used in applications such as Magnetic Resonance Imaging and other R&D equipment. This project deals with newly discovered MgB2 superconductor. The process outlined in this project will produce MgB2 superconductor with better superconducting properties. The application of MgB2 superconductor will save ene ....Fabrication of high quality MgB2 superconductor. Superconductors are electrical resistance free materials. They have great potential for power applications. Nowadays, superconductors have been used in applications such as Magnetic Resonance Imaging and other R&D equipment. This project deals with newly discovered MgB2 superconductor. The process outlined in this project will produce MgB2 superconductor with better superconducting properties. The application of MgB2 superconductor will save energy, and enhance the performance of existing electrical devices such as magnet and power line.Read moreRead less
Current limiting mechanisms in magnesium diboride superconductors. Numerous important applications have already been identified for MgB2 wire: power transmission cables, fault current limiters, transformers and magnets for motors and generators, as well as MRI. The significant increase in current carrying capacity of one order of magnitude expected to result from the proposed program will enable MgB2 to replace presently existing low-temperature superconductors (LTS) and expensive high-temperat ....Current limiting mechanisms in magnesium diboride superconductors. Numerous important applications have already been identified for MgB2 wire: power transmission cables, fault current limiters, transformers and magnets for motors and generators, as well as MRI. The significant increase in current carrying capacity of one order of magnitude expected to result from the proposed program will enable MgB2 to replace presently existing low-temperature superconductors (LTS) and expensive high-temperature superconductors (HTS) in numerous important applications. MgB2 technology, coupled with renewable energy sources, has the potential to provide a long-term solution to the energy crisis and global warming threat.Read moreRead less
The role of nano-structures for the super-current flow and limitation in high-temperature superconducting films and multi-layers. The aims of the project are to promote the development of the second generation of high-temperature superconductors for electrical power engineering, so-called "Coated Conductors", and to achieve enhancements of their characteristics for revolutionizing the world of the electricity, power, and energy handling. The comprehension of critical current density limiting mec ....The role of nano-structures for the super-current flow and limitation in high-temperature superconducting films and multi-layers. The aims of the project are to promote the development of the second generation of high-temperature superconductors for electrical power engineering, so-called "Coated Conductors", and to achieve enhancements of their characteristics for revolutionizing the world of the electricity, power, and energy handling. The comprehension of critical current density limiting mechanisms in films and multi-layers, as well as the construction of corresponding theoretical models will be the main scientific outcome of the project. The understanding of the interplay between fundamental and technological aspects will be a significant step towards the practical utilization of Coated Conductors.Read moreRead less
Enhancement and elucidation of flux pinning in doped Bi-Sr-Ca-Cu-O high temperature superconducting single crystals. The proposed project aims to study the effects of elevated doping on the intrinsic electromagnetic properties of Bi-Sr-Ca-Cu-O high temperature superconducting (HTS) single crystals grown by two-dimensional and spiral-growth mechanisms with a particular focus on structure, conductivity and thermal neutron irradiation. Studies of the relationship between microstructures, anisotrop ....Enhancement and elucidation of flux pinning in doped Bi-Sr-Ca-Cu-O high temperature superconducting single crystals. The proposed project aims to study the effects of elevated doping on the intrinsic electromagnetic properties of Bi-Sr-Ca-Cu-O high temperature superconducting (HTS) single crystals grown by two-dimensional and spiral-growth mechanisms with a particular focus on structure, conductivity and thermal neutron irradiation. Studies of the relationship between microstructures, anisotropy and flux pinning will lead to a better understanding of the pinning behaviour of Bi-based HTSC. The outcome will be better methods for introducing suitable pinning centres into Bi-based high temperature superconductors.Read moreRead less
Magnesium diboride superconductor magnets for applications. The proposed development of magnesium diboride magnets is one of the core technologies that underlie applications in magnetic resonance imaging, magnetic separators, and other devices. The proposed international research consortium is in a leading position to explore the potential of these superconductor magnets for various applications. A breakthrough in the current proposal will lead to widespread commercial activities in a number of ....Magnesium diboride superconductor magnets for applications. The proposed development of magnesium diboride magnets is one of the core technologies that underlie applications in magnetic resonance imaging, magnetic separators, and other devices. The proposed international research consortium is in a leading position to explore the potential of these superconductor magnets for various applications. A breakthrough in the current proposal will lead to widespread commercial activities in a number of industry sectors: mineral separation, health, electric power, transportation, water purification, drug delivery, and space/aviation. Application of the proposal's outcomes will lead to enormous energy savings and environmental benefits. Read moreRead less
Improvement of Critical Current Density of High Temperature Superconductors by Reforming Microstructure at Nanoscale. Strengthening Australia's capability and leading position in this frontier technology;
Providing human resources for the superconductivity technology industries in Australia;
Transferring new technology gained from this research to the superconductivity technology industries in Australia;
Generating patents to enrich Australian intellectual property base;
Strengthening the c ....Improvement of Critical Current Density of High Temperature Superconductors by Reforming Microstructure at Nanoscale. Strengthening Australia's capability and leading position in this frontier technology;
Providing human resources for the superconductivity technology industries in Australia;
Transferring new technology gained from this research to the superconductivity technology industries in Australia;
Generating patents to enrich Australian intellectual property base;
Strengthening the collaborations between Australia and other countries, such as Japan where research is also at the forefront in this field;
Providing training for Australian research students and engineers.
Read moreRead less
High-Performance Magnesium Diboride-Based Nanocomposite Conductors. Magnesium diborides (MgB2) is a newly discovered superconductor with a record high critical temperature (39 K) among the low-temperature superconductors. Superior properties of MgB2 make it very promising for engineering applications above 20 K. This project aims to develop a novel, low-cost, energy-saving, and industrially-feasible technique to make MgB2-based nanocomposite conductors that may overcome the critical problems exi ....High-Performance Magnesium Diboride-Based Nanocomposite Conductors. Magnesium diborides (MgB2) is a newly discovered superconductor with a record high critical temperature (39 K) among the low-temperature superconductors. Superior properties of MgB2 make it very promising for engineering applications above 20 K. This project aims to develop a novel, low-cost, energy-saving, and industrially-feasible technique to make MgB2-based nanocomposite conductors that may overcome the critical problems existing in the material. The outcomes of this project will be the development of a new fabrication method and improved performance of MgB2-based conductors. The results also will increase our understanding of flux pinning at the nanoscale.Read moreRead less