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
On demand three-dimensional printing of stainless steel parts. On demand three-dimensional printing of stainless steel parts. This project aims to revolutionize the security of supply of critical stainless steel parts by producing them on-site and on demand, using three dimensional metal printing. Australia’s oil and gas industry uses tonnes of stainless steel for critical processing components in production plants. Australia is also one of the few developed nations without appreciable productio ....On demand three-dimensional printing of stainless steel parts. On demand three-dimensional printing of stainless steel parts. This project aims to revolutionize the security of supply of critical stainless steel parts by producing them on-site and on demand, using three dimensional metal printing. Australia’s oil and gas industry uses tonnes of stainless steel for critical processing components in production plants. Australia is also one of the few developed nations without appreciable production and processing facilities for stainless steels, so relies on specialist overseas suppliers. This is a major risk to the industry, which stores billions of dollars’ worth of replacement parts, including stainless steels, in inventory. This project should reduce reliance on overseas steel suppliers and free up hundreds of millions of dollars of capital invested in the inventory stores of replacement stainless steel parts.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101759
Funder
Australian Research Council
Funding Amount
$385,720.00
Summary
A novel fundamental approach to enable net shape manufacturing of low-cost high-performance titanium alloys . Oxygen is the bottleneck issue of titanium powder metallurgy, which radically deteriorates the ductility of titanium. This project aims to develop the essential fundamental knowledge and technical solutions to mitigate the detrimental effect of oxygen on the ductility of as-sintered titanium products and enable the net-shape fabrication of low-cost high-performance titanium alloys. This ....A novel fundamental approach to enable net shape manufacturing of low-cost high-performance titanium alloys . Oxygen is the bottleneck issue of titanium powder metallurgy, which radically deteriorates the ductility of titanium. This project aims to develop the essential fundamental knowledge and technical solutions to mitigate the detrimental effect of oxygen on the ductility of as-sintered titanium products and enable the net-shape fabrication of low-cost high-performance titanium alloys. This will be achieved by utilising the inexpensive and unique titanium hydride powder, rather than titanium metal powder, and by developing effective oxygen scavengers. The outcomes will form a robust basis for the creation of a viable titanium hydride powder metallurgy business.Read moreRead less
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
Modelling twinning transitions in light metals: a new foundation for alloy and process development. Australia's quest to become a world leader in light metals technology is being held back by a lack of quantitative understanding of the metallurgical behaviour of magnesium, which is the lightest engineering metal, and titanium, which is the strongest light metal. In particular, there is poor knowledge of the influence of material parameters on deformation twinning. This knowledge is vital for eff ....Modelling twinning transitions in light metals: a new foundation for alloy and process development. Australia's quest to become a world leader in light metals technology is being held back by a lack of quantitative understanding of the metallurgical behaviour of magnesium, which is the lightest engineering metal, and titanium, which is the strongest light metal. In particular, there is poor knowledge of the influence of material parameters on deformation twinning. This knowledge is vital for efficient production and optimised alloy and part design. This proposal aims to develop a quantitative understanding of transitions in twinning activation for improved performance in fatigue, crash behaviour, structural integrity, forming, forging, extruding, hot rolling and annealing.Read moreRead less
An innovative system for accurate bending of fracture fixation plates in orthopaedic surgery. Bone fractures cost the Australian healthcare system about 1 billion annually, with the costs associated with non optimal surgical outcomes due to post-operative complications being much higher. The novel system developed in this project will not only shorten surgical procedures but also result in anatomically better fitting plates which will improve the functional outcome and reduce the need for surgic ....An innovative system for accurate bending of fracture fixation plates in orthopaedic surgery. Bone fractures cost the Australian healthcare system about 1 billion annually, with the costs associated with non optimal surgical outcomes due to post-operative complications being much higher. The novel system developed in this project will not only shorten surgical procedures but also result in anatomically better fitting plates which will improve the functional outcome and reduce the need for surgical implant removal. It will further lessen degenerative changes in adjacent joints as a result of incorrect fracture alignment. It can be expected that these improvements in surgical techniques will translate into reduced healthcare expenditure and ensure patient's quality of life.Read moreRead less
Optimising students’ academic trajectories: The role of growth (‘personal best’) goals. Too many students fail to reach their academic potential and, as a result, they risk being systematically denied a sense of academic ‘success’ and progress. Through a focus on academic growth (and ‘personal bests’), this research project traverses complex terrain to identify the role of growth goals and growth goal setting in students’ academic trajectories. It also tackles methodological challenges that have ....Optimising students’ academic trajectories: The role of growth (‘personal best’) goals. Too many students fail to reach their academic potential and, as a result, they risk being systematically denied a sense of academic ‘success’ and progress. Through a focus on academic growth (and ‘personal bests’), this research project traverses complex terrain to identify the role of growth goals and growth goal setting in students’ academic trajectories. It also tackles methodological challenges that have impeded research progress in this compelling area. Through strategic international and institutional links, the research program will identify innovative approaches to academic growth and growth goals that will significantly assist pedagogy and psychology aimed at optimising students’ academic potential.Read moreRead less
Solving the inert knowledge problem. A central goal of education is for students to transfer what they learn to new contexts or problems. Indeed, expert reasoning is often characterised by seeing the deep structural commonalities across seemingly disparate situations. However, the knowledge students acquire is notoriously inert, tied to the specifics of the learning examples. This project aims to move towards solving 'the inert knowledge problem' by investigating how humans learn concepts define ....Solving the inert knowledge problem. A central goal of education is for students to transfer what they learn to new contexts or problems. Indeed, expert reasoning is often characterised by seeing the deep structural commonalities across seemingly disparate situations. However, the knowledge students acquire is notoriously inert, tied to the specifics of the learning examples. This project aims to move towards solving 'the inert knowledge problem' by investigating how humans learn concepts defined by abstract relational structure, and by designing educational applications that enhance the use of relational learning mechanisms in students with a wide range of cognitive abilities.Read moreRead less
The Extinction Of Conditioned Fear And Its Implications For Cue Exposure Therapy
Funder
National Health and Medical Research Council
Funding Amount
$322,430.00
Summary
This project studies extinction of Pavlovian conditioned fear reactions in rats. Extinction of these reactions is an animal model for exposure therapy used in the treatment of anxiety disorders in people. In exposure therapy, the patient, aided by the clinician, confronts trauma-related cues in the absence of any overt danger. The intention of this therapy is to reduce the ability of the trauma-related cues to provoke the fear reactions that are undermining the patient's quality of life. In Pavl ....This project studies extinction of Pavlovian conditioned fear reactions in rats. Extinction of these reactions is an animal model for exposure therapy used in the treatment of anxiety disorders in people. In exposure therapy, the patient, aided by the clinician, confronts trauma-related cues in the absence of any overt danger. The intention of this therapy is to reduce the ability of the trauma-related cues to provoke the fear reactions that are undermining the patient's quality of life. In Pavlovian conditioning, subjects (typically rats) are exposed to a signaling relation between an initially neutral stimulus (e.g., a noise) and a feared outcome (e.g., foot shock). When later repeatedly exposed to the initially neutral but now feared stimulus (the noise) in the absence of the feared outcome, the fear reactions it acquired progressively decline until eventually it fails to elicit any such reactions. The fear reactions are said to have been extinguished. There has been significant progress in understanding the psychological processes and neural mechanisms underlying the acquisition of fear reactions, but much less is known about the processes and mechanisms underlying the extinction of these reactions. The project has two general objectives. The first is to determine the conditions of extinction training that promote long-term loss of fear reactions. The second objective is to determine how the brain controls this extinction of learned fear. Achieving these aims will be significant for two reasons. First, it will contribute to understanding the mechanisms by which animals (including people) learn to adjust their behaviour to bring it into line with the current relations that exist between events in the world. Second, it will provide important information about how such adjustment is facilitated or impaired across extinction training and, thereby, contribute towards understanding both the successes and failures of cue exposure therapy for fear-related disorders.Read moreRead less
MICROFORMING: effects of microstructural scale on metal formability. Microforming is a rapidly growing industry, and already enjoys considerable activity in Germany, Japan, the US, and Korea, all of which are major trading partners of Australia. This project couples fundamental insight into the effects of microstructural and geometric scale with the frontier technology of microforming. Thus, the project will place Australian researchers at the frontier of microforming research, with the capacity ....MICROFORMING: effects of microstructural scale on metal formability. Microforming is a rapidly growing industry, and already enjoys considerable activity in Germany, Japan, the US, and Korea, all of which are major trading partners of Australia. This project couples fundamental insight into the effects of microstructural and geometric scale with the frontier technology of microforming. Thus, the project will place Australian researchers at the frontier of microforming research, with the capacity to be involved in shaping the industry. In the course of this work, new process routes will be developed, new materials may be created, and new opportunities will certainly emerge.Read moreRead less