Discovery Early Career Researcher Award - Grant ID: DE120102784
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Water-swellable rubber with nanoparticle-enabled super capacity as smart water-leakage sealant. A novel water-swellable rubber (WSR) sealant with continuous hydrophobic phase and isolated hydrophilic phase is developed for stopping water leakage from gaps and cracks. Nanoparticle-enabled blocks and network channels in rubber matrix effectively improve the integrity and capability of WSR as smart water-leakage sealants in various applications.
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
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
Fundamentals of Electrically Conductive Elastomer Composites. This project aims to address the performance instability of stretchable/flexible electronics and devices, by developing mechanically resilient, electrically conductive patterns of nanomaterials to be encased in elastomers. It expects to generate new knowledge in the field of composite processing, to provide fundamentals for composite industry to develop novel strain gauges and conductors. Expected outcomes include a methodology for st ....Fundamentals of Electrically Conductive Elastomer Composites. This project aims to address the performance instability of stretchable/flexible electronics and devices, by developing mechanically resilient, electrically conductive patterns of nanomaterials to be encased in elastomers. It expects to generate new knowledge in the field of composite processing, to provide fundamentals for composite industry to develop novel strain gauges and conductors. Expected outcomes include a methodology for stabilising the cyclic performance of electrically conductive elastomer composites. This project is anticipated to provide significant long-term benefits not only for underwater infrastructure condition monitoring but for remote and personalised health-monitoring.Read moreRead less
Strong and Durable Flame-Retarding Composites by Multi-scale Encapsulation and Reinforcement. Fires cause approximately $100 million damage to Australian buildings each year. The effects of fire can be significantly reduced through microencapsulation of fire-retarding chemicals in composites used in the building industry. This project aims to encapsulate such chemicals in natural microtubules and develop cost-effective polymer/microtubule/graphene oxide composites that combine superior fire resi ....Strong and Durable Flame-Retarding Composites by Multi-scale Encapsulation and Reinforcement. Fires cause approximately $100 million damage to Australian buildings each year. The effects of fire can be significantly reduced through microencapsulation of fire-retarding chemicals in composites used in the building industry. This project aims to encapsulate such chemicals in natural microtubules and develop cost-effective polymer/microtubule/graphene oxide composites that combine superior fire resistance with high durability in a wide range of applications.Read moreRead less
Reinforcement of rubber products using nanostructured carbon materials. Reinforcement of rubber products using nanostructured carbon materials. This project aims to use the surface-functionalized nanostructured carbons as fillers to reinforce natural rubber. These fillers should significantly enhance the cross-linking between carbon and rubber matrix, leading to high-performance composite products with long lifetime, high thermal conductivity, high oil resistance and outstanding dynamic behaviou ....Reinforcement of rubber products using nanostructured carbon materials. Reinforcement of rubber products using nanostructured carbon materials. This project aims to use the surface-functionalized nanostructured carbons as fillers to reinforce natural rubber. These fillers should significantly enhance the cross-linking between carbon and rubber matrix, leading to high-performance composite products with long lifetime, high thermal conductivity, high oil resistance and outstanding dynamic behaviours. This project is expected to make Australia capable of fabricating superior rubber-based materials and devices that are comfortable, quiet and energy efficient, for use in aircrafts, automobiles and vessels. It should also reduce the use of non-degradable rubber materials, promoting Australia’s economic development and environment protection.Read moreRead less
Development of Multilayered Packaging Materials with Controlled Barrier Properties. The project aims to develop advanced new material for multilayered packaging with high oxygen and moisture barrier properties for cost effective packaging applications. Poly Products currently imports and uses some polymer as its key component for controlling barrier property of their food packaging. However, the new nanostructured material when sandwiched between less expensive materials in a multilayered packag ....Development of Multilayered Packaging Materials with Controlled Barrier Properties. The project aims to develop advanced new material for multilayered packaging with high oxygen and moisture barrier properties for cost effective packaging applications. Poly Products currently imports and uses some polymer as its key component for controlling barrier property of their food packaging. However, the new nanostructured material when sandwiched between less expensive materials in a multilayered packaging film will yield excellent barrier properties, leading to extended shelf life of different food products. The new smart material will generate significant material saving and replace the imported polymer, and will secure export market of the product in Asia -Pacific region.Read moreRead less
Materials Engineering Solutions for Tomorrow's Water Resources. This proposal concerns the development of advanced technologies informed by knowledge management systems to ensure the continued provision of high-quality drinking water to Australian. This is particularly important as we see the impacts from climate change and extreme weather variability with catastrophic consequences such as recently seen in Victoria and in Queensland on water catchments and water quality and supply. The challenge ....Materials Engineering Solutions for Tomorrow's Water Resources. This proposal concerns the development of advanced technologies informed by knowledge management systems to ensure the continued provision of high-quality drinking water to Australian. This is particularly important as we see the impacts from climate change and extreme weather variability with catastrophic consequences such as recently seen in Victoria and in Queensland on water catchments and water quality and supply. The challenges of adequate water resourcing, both in quantity and quality, for Australians who wish to lead healthy and productive lives are serious and require collaboration between industry, government and research providers such as is proposed here. Read moreRead less