Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453915
Funder
Australian Research Council
Funding Amount
$280,917.00
Summary
Furnace to Test Nano-Geopolymers under Extreme Fire Loading. The deleterious effects of extreme fire on structures (e.g. buildings) are significant, whereby structures are designed to ensure that they do not collapse during fire causing human loss. At high temperatures, materials like concrete lose strength and deteriorate. There is a need in Australia for a shared furnace facility between collaborating Institutions to test, share knowledge and expertise, and compare advanced geopolymer materia ....Furnace to Test Nano-Geopolymers under Extreme Fire Loading. The deleterious effects of extreme fire on structures (e.g. buildings) are significant, whereby structures are designed to ensure that they do not collapse during fire causing human loss. At high temperatures, materials like concrete lose strength and deteriorate. There is a need in Australia for a shared furnace facility between collaborating Institutions to test, share knowledge and expertise, and compare advanced geopolymer materials to different types of concrete when exposed to extreme fire and temperature (e.g. hydrocarbon fire). Geopolymers material offer fire resistance potential, but this needs to be quantified and linked to microstructure prior to commercial acceptance.Read moreRead less
CFRP (Carbon Fibre Reinforced Polymer) Strengthening of Steel Structures. The research will produce a breakthrough in understanding the bond characteristics between CFRP and steel. It will develop strengthening techniques for steel structures. The project will contribute to improved cost effectiveness and safety of steel structures thereby contributing to the socio-economic well-being of Australia including the road, offshore, building and mining industries. It will increase the international co ....CFRP (Carbon Fibre Reinforced Polymer) Strengthening of Steel Structures. The research will produce a breakthrough in understanding the bond characteristics between CFRP and steel. It will develop strengthening techniques for steel structures. The project will contribute to improved cost effectiveness and safety of steel structures thereby contributing to the socio-economic well-being of Australia including the road, offshore, building and mining industries. It will increase the international competitiveness of the Australian steel industry and Australia's infrastructure maintenance capability. Furthermore, Australia will be better positioned for potential technology transfer to Asian countries in this technical area.Read moreRead less