New Wrought Magnesium Alloys: Manipulating the Annealed Microstructure. One of the main impediments to increased use of wrought magnesium is its characteristic but mediocre mechanical properties. The proposed work paves the way for new improved wrought magnesium alloys by determining how the constituent nano-structures, micro-structures and deformation conditions can be manipulated to control the evolution of properties during annealing. The project will deliver mathematical models describing th ....New Wrought Magnesium Alloys: Manipulating the Annealed Microstructure. One of the main impediments to increased use of wrought magnesium is its characteristic but mediocre mechanical properties. The proposed work paves the way for new improved wrought magnesium alloys by determining how the constituent nano-structures, micro-structures and deformation conditions can be manipulated to control the evolution of properties during annealing. The project will deliver mathematical models describing the annealed microstructure and mechanical properties. The work will also explore the potential of a recent discovery made by the CI of a simple technique to randomise the alignment of the annealed atomic lattice structure, which promises to markedly improve formability.Read moreRead less
Lower-cost processing of formable magnesium alloys. This project aims to develop higher speed extrusion and rolling of magnesium alloys through the enhanced control of alloying elements and processing schedules. Expected outcomes of this project include the development of novel alloys and processing technologies that can produce lighter, better performing magnesium products with lower processing costs. This project will deliver magnesium products that can improve fuel efficiency, resulting in lo ....Lower-cost processing of formable magnesium alloys. This project aims to develop higher speed extrusion and rolling of magnesium alloys through the enhanced control of alloying elements and processing schedules. Expected outcomes of this project include the development of novel alloys and processing technologies that can produce lighter, better performing magnesium products with lower processing costs. This project will deliver magnesium products that can improve fuel efficiency, resulting in lower emissions and less environmental pollution, along with lightweight portable consumer goods.Read moreRead less
Optimising the Formability of Strip-Cast Low Carbon Steel. Recent advances in strip casting of low carbon steel have the potential for producing formable sheet products at a fraction of the cost of conventional slab casting and secondary processing. The aim of the project is to develop a deeper understanding of the effect of solidification microstructure of strip-cast steel on the development of microstructure and texture following cold rolling and annealing in an attempt to improve the formabi ....Optimising the Formability of Strip-Cast Low Carbon Steel. Recent advances in strip casting of low carbon steel have the potential for producing formable sheet products at a fraction of the cost of conventional slab casting and secondary processing. The aim of the project is to develop a deeper understanding of the effect of solidification microstructure of strip-cast steel on the development of microstructure and texture following cold rolling and annealing in an attempt to improve the formability of the final strip product. The project is also expected to produce an outstanding Australian researcher relevant to industry with expertise in ferrous physical metallurgy.Read moreRead less
Reducing the environmental impact of steel making through direct strip casting. This project will investigate direct strip casting of steel, a technology that reduces the environmental footprint of liquid steel processing by up to 90 per cent. With the industry partner Baosteel, the project hopes to expand the application of this process to more steel grades and to also assess possible new steel grades with improved properties.
New Generation Pipeline and Q&T Plate Steels. If successful, the progressive reformulation of the alloy design of a new family of steels would enhance their properties, greatly reduce the complexity of manufacture, ensure more efficient steelmaking production practices and enable the full capacity of the domestic pipe mills and plate manufacturing facilities to be realised. This innovative and new approach opens up opportunities for market growth and export potential in areas of fundamental impo ....New Generation Pipeline and Q&T Plate Steels. If successful, the progressive reformulation of the alloy design of a new family of steels would enhance their properties, greatly reduce the complexity of manufacture, ensure more efficient steelmaking production practices and enable the full capacity of the domestic pipe mills and plate manufacturing facilities to be realised. This innovative and new approach opens up opportunities for market growth and export potential in areas of fundamental importance to Australia's infrastructure and mining industries and defence capability. Implementation of this newly developed technology would, for the first time, create export market opportunities for Australian pipe manufacturers.
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Dynamic recrystallization and preferred orientation in ultra-thin steel-strip under conditions of fluctuating temperature and stress. We aim to develop a sound understanding of the origins of ridge-buckle defects in flat-rolled steel sheet and to train researchers in advanced techniques. By studying dynamic recrystallisation and texture formation, not of the bulk, but of isolated pockets of material within the bulk that are subject to fluctuating conditions of temperature and stress, defect form ....Dynamic recrystallization and preferred orientation in ultra-thin steel-strip under conditions of fluctuating temperature and stress. We aim to develop a sound understanding of the origins of ridge-buckle defects in flat-rolled steel sheet and to train researchers in advanced techniques. By studying dynamic recrystallisation and texture formation, not of the bulk, but of isolated pockets of material within the bulk that are subject to fluctuating conditions of temperature and stress, defect formation will be related to the intricate interplay between rolling dynamics and microstructural development. Through this new approach a scientifically founded quantitative model should emerge so that defect occurrence can be forecasted, preventative action predicted and industry's competitive position be retained. Read moreRead less
Batch annealing of 3rd generation advanced high strength steels. This project is focused on resolving processing issues to deliver advanced high strength steels. These materials will be invaluable for car manufacturers, who are looking for ways to lighten cars and increase fuel efficiency to comply with legislation on carbon dioxide emissions from automobiles. The use of breakthrough third generation advanced high strength steels may allow a reduction in mass of 10–20 per cent over existing grad ....Batch annealing of 3rd generation advanced high strength steels. This project is focused on resolving processing issues to deliver advanced high strength steels. These materials will be invaluable for car manufacturers, who are looking for ways to lighten cars and increase fuel efficiency to comply with legislation on carbon dioxide emissions from automobiles. The use of breakthrough third generation advanced high strength steels may allow a reduction in mass of 10–20 per cent over existing grades. However, these new steels require modifications to their processing compared with existing steel grades and new questions about how the microstructure evolves during processing must be answered before the processes can be optimised and the new steels can go into production.Read moreRead less
Understanding and minimising oxidation during hot rolling and metal coating of steel strip. Steel production is one of the few manufacturing industries in which Australia is internationally competitive. Annual steel exports generate about two billion dollars in national income. Substantial value is added to raw steel by hot rolling it into sheet and coating with zincalume and paint. The market for these products is intensely competitive, and continued success is critically dependent on produc ....Understanding and minimising oxidation during hot rolling and metal coating of steel strip. Steel production is one of the few manufacturing industries in which Australia is internationally competitive. Annual steel exports generate about two billion dollars in national income. Substantial value is added to raw steel by hot rolling it into sheet and coating with zincalume and paint. The market for these products is intensely competitive, and continued success is critically dependent on productivity and quality. This project will assist BlueScope Steel in understanding and controlling millscale development on hot rolled products, and avoiding scale defects in zincalume coating.Read moreRead less
Nonlinear modelling, analysis and prediction of optimal conditions for cold roll forming. This project investigates fundamental analytical and experimental aspects of the highly nonlinear process of cold roll forming of flat steel strip to shaped product in order to gain predictive understanding and determine optimal process conditions. The project aims to develop an innovative software system that will permit operators to balance and optimize mill productivity, energy consumption, mill downtim ....Nonlinear modelling, analysis and prediction of optimal conditions for cold roll forming. This project investigates fundamental analytical and experimental aspects of the highly nonlinear process of cold roll forming of flat steel strip to shaped product in order to gain predictive understanding and determine optimal process conditions. The project aims to develop an innovative software system that will permit operators to balance and optimize mill productivity, energy consumption, mill downtime, and product change over times and facilitate the development of new productsRead moreRead less
Optimal transitional surface for a new continuous press forming process. This project addresses the National Research Priority - Frontier Technologies for Building and Transforming Australian Industries through smart information use. This project aims to gain fundamental scientific understanding of a manufacturing process with the aim of developing a tool that will enhance existing manufacturing processes and controls from an 'art of expertise' to a scientific understanding and improvement. Th ....Optimal transitional surface for a new continuous press forming process. This project addresses the National Research Priority - Frontier Technologies for Building and Transforming Australian Industries through smart information use. This project aims to gain fundamental scientific understanding of a manufacturing process with the aim of developing a tool that will enhance existing manufacturing processes and controls from an 'art of expertise' to a scientific understanding and improvement. This manufacturing area represents a niche market for Australian manufacturing and the development of a product that enhances productivity and reduces costs has the potential to elevate Australian manufacturers in the export market and create economic benefit for Australia.Read moreRead less