Energy dissipation and vibration-assisted self-healing in structures with topological interlocking. High dissipation of impact and vibration energy, vibration-assisted self-healing, high tolerance to block failure and an ease of assembly/disassembly make topological interlocking structures ideal for safety barriers, protective shields and floating structures. The theory of these phenomena will open a way for more efficient protection of infrastructure against both natural and human perpetrated i ....Energy dissipation and vibration-assisted self-healing in structures with topological interlocking. High dissipation of impact and vibration energy, vibration-assisted self-healing, high tolerance to block failure and an ease of assembly/disassembly make topological interlocking structures ideal for safety barriers, protective shields and floating structures. The theory of these phenomena will open a way for more efficient protection of infrastructure against both natural and human perpetrated impacts and for developing new methodology in constructing mobile marine bases. This constitutes the main benefit of the project. Furthermore, understanding the resonance structure of travelling waves will improve methods of non-destructive monitoring by back analysing spectral signatures of the waves.Read moreRead less
Negative Poisson's ratio and negative stiffness: rational approach to hybrid materials with internally engineered architecture. The project falls within Research Priority 3: Frontier Technologies for Building and Transforming Australian Industries. This generic work involves cutting-edge multidisciplinary research leading to better understanding of the fundamental principles governing the behaviour of hybrid materials. The proposed framework of internally engineered architecture will enrich the ....Negative Poisson's ratio and negative stiffness: rational approach to hybrid materials with internally engineered architecture. The project falls within Research Priority 3: Frontier Technologies for Building and Transforming Australian Industries. This generic work involves cutting-edge multidisciplinary research leading to better understanding of the fundamental principles governing the behaviour of hybrid materials. The proposed framework of internally engineered architecture will enrich the existing set of available methods of designing new materials, extend the knowledge base of the discipline and maintain Australia's leading position in the field. Australian Industry will benefit directly from unique engineering properties and functionalities that hybrids provide. This contributes to Priority Goals: Breakthrough Science and Advanced Materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0454172
Funder
Australian Research Council
Funding Amount
$314,127.00
Summary
Facility for Analysis of Thermal Decomposition of Solid Materials at High Pressures. This submission aims to establish an integrated facility for studying the kinetics of solid and gas-solid reactions at elevated temperatures and high pressures; a piece of infrastructure that is urgently needed in Australia. The facility will consist of a high-pressure thermal gravimetric analyser (TGA) able to operate at up to 5 MPa, which will be coupled to a mass spectrometer (MS) for identification and quan ....Facility for Analysis of Thermal Decomposition of Solid Materials at High Pressures. This submission aims to establish an integrated facility for studying the kinetics of solid and gas-solid reactions at elevated temperatures and high pressures; a piece of infrastructure that is urgently needed in Australia. The facility will consist of a high-pressure thermal gravimetric analyser (TGA) able to operate at up to 5 MPa, which will be coupled to a mass spectrometer (MS) for identification and quantification of gaseous reaction products. The facility constitutes unique and significant national research infrastructure for the simultaneous acquisition of mass loss kinetic measurements together with characterisation and quantification of emission rates of gaseous fragments generated in the reaction. As a major outcome, the facility will provide a means for consistent investigation of kinetics of elemental reactions occurring in solids, or on solid surfaces during pyrolysis and gasification processes at high pressure.Read moreRead less
Information Fusion in Autonomous systems. The aim of this fellowship is to explore and develop a family of powerful new Bayesian representations of sensory information and to demonstrate their application in perception and navigation of advanced robotic systems. These representations have the potential to revolutionize the field of intelligent autonomous systems and realize a whole new level of capapbilites and applications for advanced robotics in complex and unstructured environments such as s ....Information Fusion in Autonomous systems. The aim of this fellowship is to explore and develop a family of powerful new Bayesian representations of sensory information and to demonstrate their application in perception and navigation of advanced robotic systems. These representations have the potential to revolutionize the field of intelligent autonomous systems and realize a whole new level of capapbilites and applications for advanced robotics in complex and unstructured environments such as sub-sea exploration, mining, fire fighting and defence.Read moreRead less
Data Fusion and Perception in Autonomous Networks. Australia has developed a leading international position in robotics driven by strong national needs in field applications such as mining and agriculture. The proposed research will significantly strengthen and extend this lead by enabling the design and development of a new generation of robotic systems able to work cooperatively in the most challenging applications. The project will realise a new level of capabilities for advanced robotics in ....Data Fusion and Perception in Autonomous Networks. Australia has developed a leading international position in robotics driven by strong national needs in field applications such as mining and agriculture. The proposed research will significantly strengthen and extend this lead by enabling the design and development of a new generation of robotic systems able to work cooperatively in the most challenging applications. The project will realise a new level of capabilities for advanced robotics in applications such as integrated autonomous mining systems, environment monitoring, and networked security and defence systems. The fellowship will build new research capacity by developing and applying new knowledge in allied fields of large-scale sensor networks, environment and resource management.Read moreRead less
Theoretical Study of Functionalized Boron Nitride Nanotubes and Their Application as Gas Sensor. The gas sensors to be studied in this project can be deployed for a variety of applications, such as environmental monitoring, sensing in chemical processing plant, and gas detection for counter-terrorism, this project thus can significantly contribute to environmental protection, national security, and agriculture and pharmaceutical industries in Australia. Such mechanism understanding will also be ....Theoretical Study of Functionalized Boron Nitride Nanotubes and Their Application as Gas Sensor. The gas sensors to be studied in this project can be deployed for a variety of applications, such as environmental monitoring, sensing in chemical processing plant, and gas detection for counter-terrorism, this project thus can significantly contribute to environmental protection, national security, and agriculture and pharmaceutical industries in Australia. Such mechanism understanding will also be very useful for exploring the applications of BNNTs in nano-optical-magnetic devices, energy storage and biomaterials This project will also be important for keeping Australia in the frontier area in the research areas of nanotubes.Read moreRead less
Role of Reactive Particles in Explosive Emulsions. Concentrated water-in oil explosive emulsions are widely used in the minerals industry because they are cheap, easily detonated and relatively safe to handle. Their explosive energy can be significantly increased when reactive particles are introduced into the emulsion matrix. To do this, the interaction between the solid, oil, and water phases needs to be optimised. This investigation will increase our basic understanding of the physical and ch ....Role of Reactive Particles in Explosive Emulsions. Concentrated water-in oil explosive emulsions are widely used in the minerals industry because they are cheap, easily detonated and relatively safe to handle. Their explosive energy can be significantly increased when reactive particles are introduced into the emulsion matrix. To do this, the interaction between the solid, oil, and water phases needs to be optimised. This investigation will increase our basic understanding of the physical and chemical interactions that occur between the particle and the oil-water interface, and develop a more efficient explosive that can be produced continuously on a commercial scale.Read moreRead less
The Identification and Development of Strategies for Increasing Engineering Enrolments. There is a continuing nation-wide decline in high school student enrolment in higher level mathematics and science. This is already leading to a reduction in the number of students undertaking university engineering programs in Australia and the situation is expected to worsen. This project is directed toward a better understanding of the reasons for the trend and the development of strategies to reverse it. ....The Identification and Development of Strategies for Increasing Engineering Enrolments. There is a continuing nation-wide decline in high school student enrolment in higher level mathematics and science. This is already leading to a reduction in the number of students undertaking university engineering programs in Australia and the situation is expected to worsen. This project is directed toward a better understanding of the reasons for the trend and the development of strategies to reverse it. It aims to 1. Evaluate the most effective strategies that increase student's interests and understanding of engineering and increase participation in engineering studies. 2. Develop an optimised national communication strategy for promoting engineering studies to secondary students.Read moreRead less
Special Research Initiatives - Grant ID: SR0354703
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Robotics Research Network (RRN). The RRN brings together all the best robotics research groups in Australia with the aim of fostering and coordinating cooperative research. The RRN integrates researchers from fields including machine perception, sensing, control, artificial intelligence and mechatronics. The RRN includes representation from twelve Universities, CSIRO and involvement of four ARC Centres. Programmes are proposed to share research facilities, to support training of research personn ....Robotics Research Network (RRN). The RRN brings together all the best robotics research groups in Australia with the aim of fostering and coordinating cooperative research. The RRN integrates researchers from fields including machine perception, sensing, control, artificial intelligence and mechatronics. The RRN includes representation from twelve Universities, CSIRO and involvement of four ARC Centres. Programmes are proposed to share research facilities, to support training of research personnel and promote cooperation in international research programmes. Robotics is already having a substantial impact in industries such as mining and agriculture. Robotics will, in future, offer benefits in areas such as health care, building systems, and defence.Read moreRead less
Centre for Autonomous Systems. The aim of the Centre is to research and explore intelligence in autonomous systems. The Centre will undertake fundamental research organised around four themes; perception, control, learning and systems. These themes will interact through two research demonstrators focused around a built environment and a natural outdoor environment. The Centre brings together a critical mass of over 70 staff and research students from three leading research groups. The partners a ....Centre for Autonomous Systems. The aim of the Centre is to research and explore intelligence in autonomous systems. The Centre will undertake fundamental research organised around four themes; perception, control, learning and systems. These themes will interact through two research demonstrators focused around a built environment and a natural outdoor environment. The Centre brings together a critical mass of over 70 staff and research students from three leading research groups. The partners also have substantial track record in the commercial exploitation of autonomous systems. The proposed Centre offers the potential of growing into the world's leading autonomous systems research centre.Read moreRead less