Future copper metallurgy for the age of e-mobility and the circular economy. Copper, nickel, cobalt, chromium and tin metals are essential for the manufacture of new battery materials, electrical and electronic devices and technologies that will enable the global transition to sustainable energy systems. There are major technical challenges associated with the industrial scale high temperature production, separation and recycling of these metals. The aim of the present study is develop advanced ....Future copper metallurgy for the age of e-mobility and the circular economy. Copper, nickel, cobalt, chromium and tin metals are essential for the manufacture of new battery materials, electrical and electronic devices and technologies that will enable the global transition to sustainable energy systems. There are major technical challenges associated with the industrial scale high temperature production, separation and recycling of these metals. The aim of the present study is develop advanced chemical thermodynamic databases and models that can be used to predict the outcomes of these complex chemical reactions, and in doing so provide the industry with the vital fundamental scientific information and tools needed to be able to design and improve new, more efficient metal production and recycling technologies. Read moreRead less
Thermodynamic basis for ironmaking and slag recycling in circular economy. This project aims to develop new, powerful state-of-the-art computer-based tools to predict the outcomes of complex chemical reactions, high-temperature ironmaking and slag recycling processes. Globally, over 1 billion tonnes of iron are produced each year consuming 30 billion billion (Quintillion) Joules energy! and creating over 300 million tonnes of molten oxides (slags). Our industry partners need new advanced thermod ....Thermodynamic basis for ironmaking and slag recycling in circular economy. This project aims to develop new, powerful state-of-the-art computer-based tools to predict the outcomes of complex chemical reactions, high-temperature ironmaking and slag recycling processes. Globally, over 1 billion tonnes of iron are produced each year consuming 30 billion billion (Quintillion) Joules energy! and creating over 300 million tonnes of molten oxides (slags). Our industry partners need new advanced thermodynamic databases and computer models with which to optimise their major industrial processes and develop new technologies. By delivering these tools, this project expects to benefit both industry and the community through improved process efficiencies, and reductions in energy usage, pollutants, and environmental impacts.
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Microstructure control of hot-dip coated Al-Zn based alloy layers on steel . The process of hot-dip metal coating of steel has evolved to provide reliable products that find widespread application in many industries, including building and construction. This project aims to address and understand an intermittent processing problem using innovative approaches involving characterisation by synchrotron techniques and state-of-the art microscopy. Expected outcomes include increased manufacturing e ....Microstructure control of hot-dip coated Al-Zn based alloy layers on steel . The process of hot-dip metal coating of steel has evolved to provide reliable products that find widespread application in many industries, including building and construction. This project aims to address and understand an intermittent processing problem using innovative approaches involving characterisation by synchrotron techniques and state-of-the art microscopy. Expected outcomes include increased manufacturing efficiencies by identifying the cause of an intermittent processing defect and implementing methods of controlling this defect. This will help BlueScope and Australia maintain a world-leading reputation for high-quality coating products for domestic and export markets.Read moreRead less
Data-driven monitoring of raceway dynamics in ironmaking blast furnaces. Raceway dynamics in ironmaking blast furnaces affect operational stability and cost considerably, yet their dynamic behaviour has not been well monitored online. The project aims to develop a data-driven model for monitoring the internal state of gas-solid-powder reacting flow in the raceway and predicting raceway anomalies online. It will be achieved by combining particle-fluid numerical simulations with data processing an ....Data-driven monitoring of raceway dynamics in ironmaking blast furnaces. Raceway dynamics in ironmaking blast furnaces affect operational stability and cost considerably, yet their dynamic behaviour has not been well monitored online. The project aims to develop a data-driven model for monitoring the internal state of gas-solid-powder reacting flow in the raceway and predicting raceway anomalies online. It will be achieved by combining particle-fluid numerical simulations with data processing and reduced-order state observer, supported by lab/plant experiments, and collaborating with two industry partners from coal and steel industries. The project outcomes including codes, models and raceway control strategies can help promote Australian metallurgical coal's global markets and ultimately the Australian economy.Read moreRead less
New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry suppl ....New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry supply and sales network. This project seeks to identify and harness the key material-product attributes required to develop and implement new, lead-free alloy alternatives that meet health-compliance, production and commercial viability, that offer benefits across the industry network and health benefits to society.Read moreRead less
New copper lead processes for critical metals recovery from complex sources. The project aims to facilitate the development of novel processes for the efficient recovery and recycling of critical and strategic metals from complex sources such as sophisticated electronic components and hazardous wastes. The project expects to generate advanced chemical thermodynamic models and tools, to predict the products of complex reactions. This project should lead to improved recovery of various metals requ ....New copper lead processes for critical metals recovery from complex sources. The project aims to facilitate the development of novel processes for the efficient recovery and recycling of critical and strategic metals from complex sources such as sophisticated electronic components and hazardous wastes. The project expects to generate advanced chemical thermodynamic models and tools, to predict the products of complex reactions. This project should lead to improved recovery of various metals required for the manufacture of advanced materials and devices used in industry.Read moreRead less
Preparation and use of lignite-iron ore composite briquettes for ironmaking. Preparation and use of lignite-iron ore composite briquettes for ironmaking. This project aims to study the briquetting processes of fine powders, and the preparation and utilization of new brown coal (lignite)–iron ore composite briquettes in a blast furnace. Lignite is a low-cost and abundant resource, and could be used in an emerging carbon-iron ore composite briquette for low-cost ironmaking. This project will perfo ....Preparation and use of lignite-iron ore composite briquettes for ironmaking. Preparation and use of lignite-iron ore composite briquettes for ironmaking. This project aims to study the briquetting processes of fine powders, and the preparation and utilization of new brown coal (lignite)–iron ore composite briquettes in a blast furnace. Lignite is a low-cost and abundant resource, and could be used in an emerging carbon-iron ore composite briquette for low-cost ironmaking. This project will perform multi-scale numerical studies, supported by lab/industry-scale experiments, to produce models and control strategies. Anticipated outcomes include better design and control of briquette's preparation and utilization in ironmaking for further cost-cutting; a new market for brown coal; and a more competitive Australian economy.Read moreRead less
Nanoarchitectured anti-corrosion coatings for zinc-plated steel. Zinc-plated steel is widely used in buildings, households and vehicles, but the long-term performance is limited due to corrosion resulting from exposure to high humidity or alkaline conditions. Currently, available chromium coatings are toxic, while polymeric coatings lack durability. This project aims to use nanotechnology to develop highly effective, multifunctional anti-corrosive coatings in which long-term protection is achiev ....Nanoarchitectured anti-corrosion coatings for zinc-plated steel. Zinc-plated steel is widely used in buildings, households and vehicles, but the long-term performance is limited due to corrosion resulting from exposure to high humidity or alkaline conditions. Currently, available chromium coatings are toxic, while polymeric coatings lack durability. This project aims to use nanotechnology to develop highly effective, multifunctional anti-corrosive coatings in which long-term protection is achieved by controlling the wettability and self-healing properties. The project is excepted to generate new knowledge in coating materials that limit corrosion and address environmental problems. This advanced manufacturing technology should be of high-value benefit to manufacturers and consumers of zinc-plated steel.Read moreRead less
Oxytocin receptor PET ligands: imaging the love receptor’s engagement. This project aims to develop a positron emission tomography (PET) ligand for the oxytocin receptor. This novel platform is significant as it will allow the scientific community to answer questions about the role of the oxytocin receptor in the important process of social behaviour which underlies quality of life. This knowledge gap has remained unanswered for decades due to the lack of specific techniques to measure oxytocin ....Oxytocin receptor PET ligands: imaging the love receptor’s engagement. This project aims to develop a positron emission tomography (PET) ligand for the oxytocin receptor. This novel platform is significant as it will allow the scientific community to answer questions about the role of the oxytocin receptor in the important process of social behaviour which underlies quality of life. This knowledge gap has remained unanswered for decades due to the lack of specific techniques to measure oxytocin receptor engagement. It is also significant as it will equip Australian startup Kinoxis Therapeutics to progress their molecules to market, a process enabled by measuring oxytocin receptor engagement. Our dual expertise on the oxytocin receptor and PET ligand development uniquely situate us to generate this technology.Read moreRead less
Next-Generation Advanced Ammunition Alloy Production Technologies. This project aims to address a major shortfall in Australia’s ammunition supply chain and security by providing alloy solutions that enable the bypassing of the energy-intensive ammunition production steps currently imported from foreign nations as semi-finished products. By using a range of innovative new alloy design approaches that fundamentally address alloy strength, workability and castability, this project expects to provi ....Next-Generation Advanced Ammunition Alloy Production Technologies. This project aims to address a major shortfall in Australia’s ammunition supply chain and security by providing alloy solutions that enable the bypassing of the energy-intensive ammunition production steps currently imported from foreign nations as semi-finished products. By using a range of innovative new alloy design approaches that fundamentally address alloy strength, workability and castability, this project expects to provide higher performance cartridge alloys amenable to modern economic production technologies available within Australia simply not possible with existing cartridge brass. This shall provide a flexible, cost-competitive and secure sovereign ammunition supply chain while simultaneously improving ammunition performance.Read moreRead less