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: 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
Optimising paint adhesion to polymers. The Australian automotive export market (vehicles, parts, engines) is worth approximately $4,500 million p.a. and is a major employer in many areas. A reliable, cheap and efficient method for preparing polymer surfaces for painting will significantly benefit that market. The ability to manufacture quality, cheaper, lightweight parts improves the competitiveness of the local automotive industry. More importantly, a technology for production of cheap, high qu ....Optimising paint adhesion to polymers. The Australian automotive export market (vehicles, parts, engines) is worth approximately $4,500 million p.a. and is a major employer in many areas. A reliable, cheap and efficient method for preparing polymer surfaces for painting will significantly benefit that market. The ability to manufacture quality, cheaper, lightweight parts improves the competitiveness of the local automotive industry. More importantly, a technology for production of cheap, high quality painted polymer surfaces vastly improves the competitiveness of local component manufacturers who supply to international vehicle manufacturers. This project falls under the National Research Priority Area 'Frontier Technologies for Building and Transforming Australian Industries'.Read moreRead less
Molecular modelling of the structure and mechanical properties of clay-based polymer nanocomposites. Nanotechnology is one of the most rapidly growing areas in the 21st century. Its world market is expected to reach US$2.6 trillions in 2014, valued at 15% of global manufacturing output. The use of clay nanofillers as polymer reinforcement is an emerging cutting-edge research and of paramount importance in Australia in view of its heavy dependence on mineral industries. The project will tackle th ....Molecular modelling of the structure and mechanical properties of clay-based polymer nanocomposites. Nanotechnology is one of the most rapidly growing areas in the 21st century. Its world market is expected to reach US$2.6 trillions in 2014, valued at 15% of global manufacturing output. The use of clay nanofillers as polymer reinforcement is an emerging cutting-edge research and of paramount importance in Australia in view of its heavy dependence on mineral industries. The project will tackle the core problems in this field. The research outcomes will lead to highly value-added mineral products and better process control. Furthermore, the application of polymer nanocomposites in automotive and packaging industries will significantly decrease energy consumption and CO2 emission, and increase the shelf-life for food and beverage. Read moreRead less
An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspe ....An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspect ratio, and uniformly dispersed in a polymer matrix. This novel approach is environmentally benign and cost-effective since no alkyl ammonium surfactants are required. The resultant nanocomposites will exhibit excellent barrier properties, high thermal stability, environmental durability and superior mechanical properties. These qualities make them very attractive for many applications in the automotive and packaging industries.Read moreRead less
The development of super-toughened epoxies using a novel nanomaterial. Epoxy resins are widely used as structural adhesives and coatings in engineering structures. This project will address the problem of the intrinsic brittleness of epoxy by making it significantly tougher with superior performance and cost-effectiveness. Our technology for producing super-toughened epoxy will lead to a wide range of applications for new and existing products in the construction, automotive, aerospace, adhesive ....The development of super-toughened epoxies using a novel nanomaterial. Epoxy resins are widely used as structural adhesives and coatings in engineering structures. This project will address the problem of the intrinsic brittleness of epoxy by making it significantly tougher with superior performance and cost-effectiveness. Our technology for producing super-toughened epoxy will lead to a wide range of applications for new and existing products in the construction, automotive, aerospace, adhesive and microelectronics industries.Read moreRead less
Novel Waterborne Multifunctional Sealer for Asphalt Pavement. One of the long-term challenges and most serious problems faced by the asphalt surfacing and road construction industry is the rapid deterioration of asphaltic surfaces to the extent that they become unfit/unsafe for use in short time. The length of the Australian local government road system is approximately 810,000 kilometres and currently approximately $2,460 million/year is spent on road maintenance; the replacement value of ....Novel Waterborne Multifunctional Sealer for Asphalt Pavement. One of the long-term challenges and most serious problems faced by the asphalt surfacing and road construction industry is the rapid deterioration of asphaltic surfaces to the extent that they become unfit/unsafe for use in short time. The length of the Australian local government road system is approximately 810,000 kilometres and currently approximately $2,460 million/year is spent on road maintenance; the replacement value of the road asset exceeds $106,000 million. Thus providing satisfactory tough protective shield on asphalt pavements that locks out destructive elements and provide long-term protection is of enormous economic importance and national/community benefit.Read moreRead less
IMPROVED PROPERTIES BY CONTROL OF NANOMETRE AND MOLECULAR STRUCTURE OF CROSSLINKED POLYMERS. This French - Australian collaboration seeks to develop new composite, nanostructured thermosetting materials by control of molecular architecture and phase morphology, and by the incorporation of a range of nanoparticles into crosslinking systems. Such composites are increasingly required in high value industries such as electronics, aerospace and automotive. The project seeks to extend and develop the ....IMPROVED PROPERTIES BY CONTROL OF NANOMETRE AND MOLECULAR STRUCTURE OF CROSSLINKED POLYMERS. This French - Australian collaboration seeks to develop new composite, nanostructured thermosetting materials by control of molecular architecture and phase morphology, and by the incorporation of a range of nanoparticles into crosslinking systems. Such composites are increasingly required in high value industries such as electronics, aerospace and automotive. The project seeks to extend and develop the current successful and productive interaction between the researchers. As well as producing nanomaterials, the participants have extensive, complementary expertise in characterization at the molecular and nanoscale - crucial if the behaviour of these new materials is to be understood, controlled and further new materials rationally designed.Read moreRead less
Nanostructure Design and Toughening Mechanisms of Novel Thermosets. The research will enable a new technology to manufacture a class of novel nanostructured thermosets that will impact many application areas in Australia, such as protective surface coatings, structural adhesives and composite matrix materials for aerospace and automotive, and microelectronic devices, etc. The intellectual properties and patents generated will contribute to the overall competitiveness and productivity of Australi ....Nanostructure Design and Toughening Mechanisms of Novel Thermosets. The research will enable a new technology to manufacture a class of novel nanostructured thermosets that will impact many application areas in Australia, such as protective surface coatings, structural adhesives and composite matrix materials for aerospace and automotive, and microelectronic devices, etc. The intellectual properties and patents generated will contribute to the overall competitiveness and productivity of Australia~{!/~}s R&D. They will also provide business opportunities to develop niche markets for these new and high-value added materials on a large scale in Australia so as to maximise return and create jobs. Read moreRead less
Nanostructured Hydrogel-Carbon Nanotube Composites for Artificial Muscles. This collaboration links the expertise of the two groups in advanced functional materials for the development of improved mechanical actuators for artificial muscles. The Korean group provides key know-how in synthetic and natural hydrogels. The Wollongong team has developed expertise in carbon nanotube actuators. The hydrogel-nanotube hybrids resulting from this collaboration are likely to show improved performance co ....Nanostructured Hydrogel-Carbon Nanotube Composites for Artificial Muscles. This collaboration links the expertise of the two groups in advanced functional materials for the development of improved mechanical actuators for artificial muscles. The Korean group provides key know-how in synthetic and natural hydrogels. The Wollongong team has developed expertise in carbon nanotube actuators. The hydrogel-nanotube hybrids resulting from this collaboration are likely to show improved performance compared with existing materials. The improved actuators will be utilised in on-going projects in both countries.Read moreRead less