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Development of economical beam-column connections for robust composite steel-concrete structural frames. The proposed construction systems will offer a competitive and more robust alternative for developers, building owners and occupants. The successful development of the proposed construction systems will lead to an increased market for blind bolts, steel circular hollow sections, steel Universal Beams and metal decking. An added benefit of the proposed systems is an anticipated improvement in ....Development of economical beam-column connections for robust composite steel-concrete structural frames. The proposed construction systems will offer a competitive and more robust alternative for developers, building owners and occupants. The successful development of the proposed construction systems will lead to an increased market for blind bolts, steel circular hollow sections, steel Universal Beams and metal decking. An added benefit of the proposed systems is an anticipated improvement in performance, relative to existing systems, under low probability, high consequence events such as 2500-year return period level earthquakes (in the relevant region) or blast loading. These unique and innovative structural solutions should drive the competitive advantage of Australian engineers in international markets.Read moreRead less
Design of Microstructures for Materials and Composites with Desired Functional Properties. The creation of new and advanced materials and composites will underpin the growth in many industrial and economic activities in Australia. This project will meet the substantial scientific and technological challenges in exploring and finding optimal microstructures for materials and composites with desired functional properties. The proposed research will significantly extend a topological optimization t ....Design of Microstructures for Materials and Composites with Desired Functional Properties. The creation of new and advanced materials and composites will underpin the growth in many industrial and economic activities in Australia. This project will meet the substantial scientific and technological challenges in exploring and finding optimal microstructures for materials and composites with desired functional properties. The proposed research will significantly extend a topological optimization technique known as ESO/BESO - an Australian initiative that has earned a widespread international recognition. Its further development and applications will enable the Australian researchers and engineers to maintain and enhance the national capacity to exploit a niche market in the design of novel materials and composites.Read moreRead less
Topology Optimisation of Periodic Structures for Stent Design. Stenting therapy offers new therapeutical strategies to improve the quality of healthcare for numerous cardiovascular disease patients. This project will address the critical issues in stent design involving the delivery, dilatation and ongoing interaction with blood vessel and fluid. The novel topological configurations are expected to bring significant improvement to stent ensuring long-term success. The numerical techniques to be ....Topology Optimisation of Periodic Structures for Stent Design. Stenting therapy offers new therapeutical strategies to improve the quality of healthcare for numerous cardiovascular disease patients. This project will address the critical issues in stent design involving the delivery, dilatation and ongoing interaction with blood vessel and fluid. The novel topological configurations are expected to bring significant improvement to stent ensuring long-term success. The numerical techniques to be developed for optimising topology will provide new tools for design of periodic structures, making a broader impact on an important class of engineering structures and thus benefiting many relevant fields.Read moreRead less
Retrofit of Steel Connections subject to Fatigue Load by Utilizing carbon fibre reinforced polymeric (CFRP) and Modified Epoxy Structural Adhesives. The proposed research project will challenge conventional methods of repairing or strengthening steel structures by using an advanced material (CFRP) together with modified epoxy structural adhesives. It will not only provide reliable retrofitting of existing structures but will also build safe, more economic and smarter steel structures. It will co ....Retrofit of Steel Connections subject to Fatigue Load by Utilizing carbon fibre reinforced polymeric (CFRP) and Modified Epoxy Structural Adhesives. The proposed research project will challenge conventional methods of repairing or strengthening steel structures by using an advanced material (CFRP) together with modified epoxy structural adhesives. It will not only provide reliable retrofitting of existing structures but will also build safe, more economic and smarter steel structures. It will contribute to the socio-economic wellbeing of Australia, including road and railway infrastructure, offshore, mining and recreation industries, increasing the international competitiveness of the Australian steel industry and infrastructure maintenance capability. Australia will be better positioned in the region for potential technology transfer to Asian and surrounding countries.Read moreRead less
Mathematical modelling of tidal, splash and coastal atmospheric marine corrosion for structural reliability assessment. The project deals with structural deterioration due to steel corrosion. It is at the cutting-edge of international structural reliability research and based on the CI's previous successful corrosion modeling research. It will provide improved understanding of tidal, splash and coastal atmospheric corrosion and novel physically-based mathematical models for the progression of co ....Mathematical modelling of tidal, splash and coastal atmospheric marine corrosion for structural reliability assessment. The project deals with structural deterioration due to steel corrosion. It is at the cutting-edge of international structural reliability research and based on the CI's previous successful corrosion modeling research. It will provide improved understanding of tidal, splash and coastal atmospheric corrosion and novel physically-based mathematical models for the progression of corrosion with time. These can provide input for modern risk-based techniques for safety and functional performance assessment to assist with cost-effective planning, maintenance and rehabilitation decisions. The project has national economic implications for the design, maintenance and rehabilitation of Australian physical assets, including deteriorating civil infrastructure.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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989804
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A Universal Nano Tribometer for Surface and Thin Film Characterisation. The proposed infrastructure will be of major benefit to a large number of ARC funded research projects involving chracterisation of materials at four universities UOW,QUT, UNSW and CDU. The project will extend the research capability of the participating researchers and facilitate innovative projects and new research direction in advanced materials processing in the nano/micro scale. This in turn will lead to improved intern ....A Universal Nano Tribometer for Surface and Thin Film Characterisation. The proposed infrastructure will be of major benefit to a large number of ARC funded research projects involving chracterisation of materials at four universities UOW,QUT, UNSW and CDU. The project will extend the research capability of the participating researchers and facilitate innovative projects and new research direction in advanced materials processing in the nano/micro scale. This in turn will lead to improved international competitiveness of Australian industry.Read moreRead less
Design Strategy for Cold Roll Formed Products. Roll forming is a widely used metal forming technology in Australia. The demands for shorter lead times, more complex shapes, new high strength materials and more demanding markets such as the automotive industry, requires increased virtual engineering at the design stage. This project will develop the models and tools required to enable the industry to efficiently design robust roll configurations to meet current and future demands. The outcomes ....Design Strategy for Cold Roll Formed Products. Roll forming is a widely used metal forming technology in Australia. The demands for shorter lead times, more complex shapes, new high strength materials and more demanding markets such as the automotive industry, requires increased virtual engineering at the design stage. This project will develop the models and tools required to enable the industry to efficiently design robust roll configurations to meet current and future demands. The outcomes from this project will not only benefit the industry partners involved but the general Australian roll forming industry, opening up new markets and opportunities.Read moreRead less
Enhanced Mechanical Properties of Steel Sheet through Novel Approach in Asymmetric Rolling. Steel sheet production is one of the major industries in Australia, which impacts the automotive and construction industries. There is an ongoing requirement to increase the strength of steel sheet without compromising ductility, which improves the strength / weight ratio and the automobile fuel efficiency. The novel rolling process proposed has the potential to address these requirements. The industrial ....Enhanced Mechanical Properties of Steel Sheet through Novel Approach in Asymmetric Rolling. Steel sheet production is one of the major industries in Australia, which impacts the automotive and construction industries. There is an ongoing requirement to increase the strength of steel sheet without compromising ductility, which improves the strength / weight ratio and the automobile fuel efficiency. The novel rolling process proposed has the potential to address these requirements. The industrial partner Tata Steel is a global steelmaker who has strategic partnerships with Bluescope Steel in Australia. The technology to be developed will be exploited both overseas and within Australia and assist in bringing Australia to a leading position in this area of research.Read moreRead less
Debonding Failure in CFRP Strengthened Steel Structures. The research will make a breakthrough in understanding the bond characteristics between CFRP and steel. It will enhance the capacity of Australian researchers to participate in a new cutting-edge research area, and help create a vibrant new industry for strengthening steel structures. The project will contribute to improved cost efficiency and safety of steel structures thereby contributing to the socio-economic well being of Australia inc ....Debonding Failure in CFRP Strengthened Steel Structures. The research will make a breakthrough in understanding the bond characteristics between CFRP and steel. It will enhance the capacity of Australian researchers to participate in a new cutting-edge research area, and help create a vibrant new industry for strengthening steel structures. The project will contribute to improved cost efficiency and safety of steel structures thereby contributing to the socio-economic well being of Australia including road, offshore, building and mining industries. It will increase the international competitiveness of Australian steel industry and infrastructure maintenance capability. Australia will be better positioned in this region for potential technology transfer to Asian countries.Read moreRead less