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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INVESTIGATION OF THE EFFECT OF ALLOYING ELEMENTS ON SHEAR BAND FORMATION DURING THE WARM ROLLING OF LOW CARBON AND INTERSTITIAL FREE STEELS. This proposal involves the application of three dimensional atom probe field ion microscopy and advanced transmission electron microscopy techniques to study the phenomena of precipitation and solute atoms' interactions with dislocations in warm rolled low carbon steels and interstitial free steels. It is intended to examine the effect of alloying addition ....INVESTIGATION OF THE EFFECT OF ALLOYING ELEMENTS ON SHEAR BAND FORMATION DURING THE WARM ROLLING OF LOW CARBON AND INTERSTITIAL FREE STEELS. This proposal involves the application of three dimensional atom probe field ion microscopy and advanced transmission electron microscopy techniques to study the phenomena of precipitation and solute atoms' interactions with dislocations in warm rolled low carbon steels and interstitial free steels. It is intended to examine the effect of alloying additions on in-grain shear bands formation, texture formation and formability of warm rolled and annealed low carbon steels. Ultimately, the project is concerned with developing of fundamental understanging of solute interactions which provide an improved basis for design of these economically significant steels.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775721
Funder
Australian Research Council
Funding Amount
$520,000.00
Summary
Near Net Shaped Casting and Alloy Development Facility. Nearly all metal production is based around an initial casting phase, often followed by other deformation and thermal processes. This facility will allow us to study current and future advanced alloys and processing routes, including metals of strategic importance to Australia such as aluminium, titanium and magnesium. One of the major innovations for these metals is to directly cast to strip, followed by minimal processing to provide str ....Near Net Shaped Casting and Alloy Development Facility. Nearly all metal production is based around an initial casting phase, often followed by other deformation and thermal processes. This facility will allow us to study current and future advanced alloys and processing routes, including metals of strategic importance to Australia such as aluminium, titanium and magnesium. One of the major innovations for these metals is to directly cast to strip, followed by minimal processing to provide strip products with novel properties, low capital costs and short lead times. The outcomes from this research will support the development of existing and new metal industries in Australia.Read moreRead less
Precision Bending of 6xxx Aluminium Extrusions. The use of aluminium in transportation applications is predicted to double over the next 10 years. The use of extruded aluminium in structural components such as space frames is a growing area, and bending is an integral and critical process in the production of such components. The aim of this project is to develop key knowledge and technology necessary for precision bending of extruded aluminium profiles. The main outcomes will be: (i) Understand ....Precision Bending of 6xxx Aluminium Extrusions. The use of aluminium in transportation applications is predicted to double over the next 10 years. The use of extruded aluminium in structural components such as space frames is a growing area, and bending is an integral and critical process in the production of such components. The aim of this project is to develop key knowledge and technology necessary for precision bending of extruded aluminium profiles. The main outcomes will be: (i) Understanding of the relationship between extrusion conditions, microstructure and bendability of structural profiles. This will enable the optimisation of the extrusion process to ensure consistent bending behaviour. (ii) Development of the rubber-pad technology for precision bending.Read moreRead less
Effect of Chromium and Manganese on the Formations of Graphite and Carbide on the surface of Low Carbon Sheet Steels. Surface graphite and surface carbide are two surface defects observed in cold-rolled low carbon steel sheets after batch annealing under non-oxidising atmosphere. The surface defects detract from the appearance of the steel sheets and diminish the surface treatment potential of the sheets, causing significant and costly material losses. The aims of the project are to study the in ....Effect of Chromium and Manganese on the Formations of Graphite and Carbide on the surface of Low Carbon Sheet Steels. Surface graphite and surface carbide are two surface defects observed in cold-rolled low carbon steel sheets after batch annealing under non-oxidising atmosphere. The surface defects detract from the appearance of the steel sheets and diminish the surface treatment potential of the sheets, causing significant and costly material losses. The aims of the project are to study the inhibition of surface graphite formation by the additions of Chromium and Manganese and to study the mechanism of formation of surface carbide with the aim of developing an alloying / processing strategy which eliminates both the surface graphite and the surface carbide.Read moreRead less
Studies in solid-gas reactions : precipitate formation and dissolution; carbide production and metal dusting. Reducing carbonaceous gases which become supersaturated with carbon can react with both oxides and metals. They reduce iron oxide and, if methane is used, produce iron carbide, a valuable material. However, they react with iron and alloy steels to destroy them, producing a dust of carbon, metal and metal carbides, a process in which iron carbide is thought to form only as a relatively ....Studies in solid-gas reactions : precipitate formation and dissolution; carbide production and metal dusting. Reducing carbonaceous gases which become supersaturated with carbon can react with both oxides and metals. They reduce iron oxide and, if methane is used, produce iron carbide, a valuable material. However, they react with iron and alloy steels to destroy them, producing a dust of carbon, metal and metal carbides, a process in which iron carbide is thought to form only as a relatively short-lived transient species. This program will study both reactions and determine the processes whereby new phases nucleate and grow or disintegrate.Read moreRead less
High-resolution in situ annealing studies of sub-micron grain structures. The proposed research is an extension of considerable ongoing collaboration between the applicants and will utilise advanced characterisation techniques to provide a more fundamental understanding than that presently available of the thermal stability of particle-containing nanocrystalline alloys. The project will reinforce the strong collaboration between our research groups and will expose Australian researchers to cutti ....High-resolution in situ annealing studies of sub-micron grain structures. The proposed research is an extension of considerable ongoing collaboration between the applicants and will utilise advanced characterisation techniques to provide a more fundamental understanding than that presently available of the thermal stability of particle-containing nanocrystalline alloys. The project will reinforce the strong collaboration between our research groups and will expose Australian researchers to cutting-edge research techniques, with particular emphasis on broadening the training experience of early career researchers. Several joint journal papers are expected from this work.
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The thermal stability of nanocrystalline alloys produced by severe plastic straining. An exciting class of materials has emerged with grain sizes two orders of magnitude finer than that produced by conventional processing. These nanocrystalline alloys are produced by intense plastic straining termed equal channel angular extrusion (ECAE). The aim of the project is to incorporate novel experimental techniques, using single crystals, in situ annealing and 3-D computer simulation to develop a fun ....The thermal stability of nanocrystalline alloys produced by severe plastic straining. An exciting class of materials has emerged with grain sizes two orders of magnitude finer than that produced by conventional processing. These nanocrystalline alloys are produced by intense plastic straining termed equal channel angular extrusion (ECAE). The aim of the project is to incorporate novel experimental techniques, using single crystals, in situ annealing and 3-D computer simulation to develop a fundamental understanding of microstructural stability during ECAE and subsequent thermal treatment. Such advances in our understanding of boundary mobility in fine-scale microstructures is important for evaluating their stability and, hence, the possible commercial exploitation of these materials.Read moreRead less
Mechanisms for Improved Ductility of Magnesium Alloys. The work will lead to more ductile magnesium alloys. These alloys will be more readily formed into automotive components. The lighter cars that will result will be cheaper to run and more environmentally friendly. The exchange of key researchers that will occur under this proposal will provide an exciting injection of expertise into the partner organisations from which students will greatly benefit. The work will also open up access to state ....Mechanisms for Improved Ductility of Magnesium Alloys. The work will lead to more ductile magnesium alloys. These alloys will be more readily formed into automotive components. The lighter cars that will result will be cheaper to run and more environmentally friendly. The exchange of key researchers that will occur under this proposal will provide an exciting injection of expertise into the partner organisations from which students will greatly benefit. The work will also open up access to state-of-the-art equipment in the collaborating laboratories.Read moreRead less
A 3D crystallographic framework for understanding the structure of deformed and annealed metals. A new 3D analysis technology will be developed into a powerful computational platform and used to explain several unresolved issues concerning the deformed and annealed state of metals. This technique is first of its kind in Australia and generates high resolution 3D images from most solid materials. There is enormous potential for its use in materials science and other research fields which is ben ....A 3D crystallographic framework for understanding the structure of deformed and annealed metals. A new 3D analysis technology will be developed into a powerful computational platform and used to explain several unresolved issues concerning the deformed and annealed state of metals. This technique is first of its kind in Australia and generates high resolution 3D images from most solid materials. There is enormous potential for its use in materials science and other research fields which is beneficial to Australia's standing in basic science. The project will provide an excellent research training environment for early career researchers who will develop an expertise that is expected to make a major contribution to future fundamental and applied research.Read moreRead less