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Structural reliability and remaining life estimation for deteriorating steel infrastructure. The risk-based approach to infrastructure performance allows the likelihood and extent of corrosion damage to be modelled. This will allow the safety of new and existing steel infrastructure to be assessed, and the safe remaining service life to be calculated.
Vulnerability of Steel Lattice Towers to Fire. Steel lattice towers find widespread use as structural components in electricity transmission systems and as base towers in UHF and microwave communications networks. They tend be protected from bushfire damage by active backburning or clearing through their easement or right of way, because the response of towers to bushfires is surprisingly unknown, and it is not known if they can provide passive protection without clearing/backburning. A world fi ....Vulnerability of Steel Lattice Towers to Fire. Steel lattice towers find widespread use as structural components in electricity transmission systems and as base towers in UHF and microwave communications networks. They tend be protected from bushfire damage by active backburning or clearing through their easement or right of way, because the response of towers to bushfires is surprisingly unknown, and it is not known if they can provide passive protection without clearing/backburning. A world first, this Project aims to use advanced numerical techniques to assess the fragility and resilience of lattice towers in fire using a systems approach based on fire load data available with a further goal to explore potential pragmatic strengthening strategies if necessary and feasible.Read moreRead less
Prediction of Atomic Transport Properties in Multicomponent Engineering Alloys. Technological advances bring demands for new engineering materials and the improvement of existing ones. Since almost every property of such materials depends directly or indirectly on matter transport, it is imperative that the materials designer can accurately predict its direction and extent. This theoretical project, supported and tested by computer simulation, will provide this knowledge. It will develop a toolb ....Prediction of Atomic Transport Properties in Multicomponent Engineering Alloys. Technological advances bring demands for new engineering materials and the improvement of existing ones. Since almost every property of such materials depends directly or indirectly on matter transport, it is imperative that the materials designer can accurately predict its direction and extent. This theoretical project, supported and tested by computer simulation, will provide this knowledge. It will develop a toolbox of robust and versatile expressions for predicting and interpreting matter transport in alloy systems at high temperatures. With these expressions in hand, the designer will be in a superior position to tailor the properties of such materials.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
Studies on Nanocomposite Coatings: Processing, Characterisation and Properties. Superhard nanocomposite coatings are relatively new materials that have found many applications in the manufacturing industries. The main objectives of this project are: (a)development and optimisation of fabrication techniques for a range of novel superhard nano-composites; (b) fundamental understanding of the relationships between residual stress, microstructure and composition; and (c) evaluations of fracture-mech ....Studies on Nanocomposite Coatings: Processing, Characterisation and Properties. Superhard nanocomposite coatings are relatively new materials that have found many applications in the manufacturing industries. The main objectives of this project are: (a)development and optimisation of fabrication techniques for a range of novel superhard nano-composites; (b) fundamental understanding of the relationships between residual stress, microstructure and composition; and (c) evaluations of fracture-mechanical properties including wear-resistance. Major research outcomes are improved basic knowledge of these novel nanocomposite coatings leading to optimal processing of superhard nano-materials.Read moreRead less
A Predictive Theory of Kinetic Demixing in Engineering Ceramics. Technological advances bring demands for new engineering ceramics and the improvement of existing ones. The properties of engineering ceramics are critically dependent on the composition and distribution of atomic components. However, separation or demixing of the components occurs in-service at high temperatures as a result of stress, electric fields or oxygen gradients. Demixing causes a major loss of performance and longevity. T ....A Predictive Theory of Kinetic Demixing in Engineering Ceramics. Technological advances bring demands for new engineering ceramics and the improvement of existing ones. The properties of engineering ceramics are critically dependent on the composition and distribution of atomic components. However, separation or demixing of the components occurs in-service at high temperatures as a result of stress, electric fields or oxygen gradients. Demixing causes a major loss of performance and longevity. This Project will develop a robust and versatile theory of demixing to enhance longevities of engineering ceramics. It will also guide the deliberate manipulation of demixing to generate novel compositionally-graded engineering ceramics having new properties of technological interest.Read moreRead less
Hybrid multiple-tube concrete columns incorporating composite materials. The project aims to investigate the behaviour of and design hybrid multiple-tube concrete columns, a form of column. These columns allow the use of small circular high-strength steel tubes, readily available in the market, to suit the specific needs of construction projects of various scales. In the column, a durable outer tube made of fibre-reinforced polymer (FRP) composites protects steel tubes, and their high yield stre ....Hybrid multiple-tube concrete columns incorporating composite materials. The project aims to investigate the behaviour of and design hybrid multiple-tube concrete columns, a form of column. These columns allow the use of small circular high-strength steel tubes, readily available in the market, to suit the specific needs of construction projects of various scales. In the column, a durable outer tube made of fibre-reinforced polymer (FRP) composites protects steel tubes, and their high yield stress can be fully exploited through section configuration. The new column is expected to enable wider, safer and more economical use of FRP and high-strength steel, and meet demands for resilient civil infrastructure.Read moreRead less
Stiffness degradation of concrete members induced by reinforcement corrosion. Corrosion of steel reinforcement is the major cause of deterioration of reinforced concrete structures exposed to coastal and marine environments. In Australia, corrosion-related repair and rehabilitation costs about $13 billion annually. Research carried out to date on the effects of corrosion in concrete structures has not considered the effects of sustained loads and shrinkage on corrosion and the deterioration of m ....Stiffness degradation of concrete members induced by reinforcement corrosion. Corrosion of steel reinforcement is the major cause of deterioration of reinforced concrete structures exposed to coastal and marine environments. In Australia, corrosion-related repair and rehabilitation costs about $13 billion annually. Research carried out to date on the effects of corrosion in concrete structures has not considered the effects of sustained loads and shrinkage on corrosion and the deterioration of member stiffness with time. This project will develop a new theoretical basis to characterise corrosion effects on the in-service behaviour of concrete structures, essential for adequate assessment of durability of existing structures and for the safe design of new structures. Read moreRead less
Lightly Loaded Energy Farm Foundations in Cracked Desiccated Soil. This project aims are to understand the effects of seasonal changes in moisture on piles in clayey soils that develop desiccation cracks during dry times of the year. The project is significant because the economics of energy farms requires low cost foundations for their viability, but current methods of foundation design require long piles to overcome uncertainties in capacity and serviceability when soil shrinks in dry periods ....Lightly Loaded Energy Farm Foundations in Cracked Desiccated Soil. This project aims are to understand the effects of seasonal changes in moisture on piles in clayey soils that develop desiccation cracks during dry times of the year. The project is significant because the economics of energy farms requires low cost foundations for their viability, but current methods of foundation design require long piles to overcome uncertainties in capacity and serviceability when soil shrinks in dry periods and swells in wetter periods. The main outcome of the project will be recommendations for the design of lightly loaded pile foundations in soils that shrink and swell significantly. The benefits will be the reduced risk and cost associated with the geotechnical aspects of foundation design.Read moreRead less