Mechanical Characterization of Carbon Nanotubes. Carbon nanotubes play important roles in the development of nanotechnology, a key technology in the twenty-first century. This project aims to establish the theories and techniques for characterizing the mechanical properties of carbon nanotubes. A novel method combining atomic analysis, predictive modeling and direct experimental quantification with atomic force microscopy will be used to achieve the objectives. The research will bring about new ....Mechanical Characterization of Carbon Nanotubes. Carbon nanotubes play important roles in the development of nanotechnology, a key technology in the twenty-first century. This project aims to establish the theories and techniques for characterizing the mechanical properties of carbon nanotubes. A novel method combining atomic analysis, predictive modeling and direct experimental quantification with atomic force microscopy will be used to achieve the objectives. The research will bring about new nanomechanics theories, resolve the existing paradox in nanotube deformation and provide an effective measuring method under complex loading. The achievement will contribute to the knowledge of nanotechnology and help the industry for further technical development.Read moreRead less
Developing a new nano-surfacing and micro-fabrication technology for complex part features using micro-abrasive jet. Ultra-precision fabrication such as nano-surfacing, micro-channelling and micro-texturing is crucial for the development of high-integrity, high-density systems for engineering, communication, computing, photovoltaic, electric and optical devices and systems. This project will gain a fundamental understanding of the physics in nano-surface formation using a micro-abrasive jet, and ....Developing a new nano-surfacing and micro-fabrication technology for complex part features using micro-abrasive jet. Ultra-precision fabrication such as nano-surfacing, micro-channelling and micro-texturing is crucial for the development of high-integrity, high-density systems for engineering, communication, computing, photovoltaic, electric and optical devices and systems. This project will gain a fundamental understanding of the physics in nano-surface formation using a micro-abrasive jet, and make a significant impact to the ultra-precision engineering discipline. It will also develop a frontier technology that will increase the competitiveness of the Australian fabrication industry in developing leading edge technologies and products.Read moreRead less
Value Adding to Australian Cashmere Fleece. This project will lead to major technical advance in the processing of both cashmere fibres and cashmere guard hair. Reducing the level of breakage in fine cashmere fibres will add significant premium to the price of cashmere fibres and products. In addition, the large amount of coarse guard hair removed from cashmere dehairing process will be converted into quality fine powders, which will add significant value to an otherwise 'waste' product. This pr ....Value Adding to Australian Cashmere Fleece. This project will lead to major technical advance in the processing of both cashmere fibres and cashmere guard hair. Reducing the level of breakage in fine cashmere fibres will add significant premium to the price of cashmere fibres and products. In addition, the large amount of coarse guard hair removed from cashmere dehairing process will be converted into quality fine powders, which will add significant value to an otherwise 'waste' product. This project will benefit the entire animal fibre industry, particularly the rare animal fibre industry.Read moreRead less
An innovative manufacturing technology enabling new generations of hip joint prostheses. The success of the present project will revolutionise the way we produce hip joint prostheses, resolve the critical issues caused by the wear of the hip joint bearing surfaces, and dramatically improve patients' life quality. The project will open an entirely new application field for the Australian made materials which have a very limited market so far. With the innovative technology and the new generations ....An innovative manufacturing technology enabling new generations of hip joint prostheses. The success of the present project will revolutionise the way we produce hip joint prostheses, resolve the critical issues caused by the wear of the hip joint bearing surfaces, and dramatically improve patients' life quality. The project will open an entirely new application field for the Australian made materials which have a very limited market so far. With the innovative technology and the new generations of hip joint prostheses, the international competitive edge of the Australian industry will be markedly sharpened. Patients, and the Australian economy, are expected to benefit greatly from successful developments in this project.Read moreRead less
A new abrasive waterjet milling technology and process models for fabricating energy-efficient electrical machines from amorphous magnetic metal laminations. As the most energy-efficient core material for electrical machines, amorphous magnetic metal (AMM) can save more than 36% of the energy wasted by ordinary electrical motors. Since electrical motors consume about 70% of all the electricity generated, if all electrical motors in Australia use AMM as the core material, an annual energy saving ....A new abrasive waterjet milling technology and process models for fabricating energy-efficient electrical machines from amorphous magnetic metal laminations. As the most energy-efficient core material for electrical machines, amorphous magnetic metal (AMM) can save more than 36% of the energy wasted by ordinary electrical motors. Since electrical motors consume about 70% of all the electricity generated, if all electrical motors in Australia use AMM as the core material, an annual energy saving worth approximately $4 billion and an annual reduction of 16 million tonnes of greenhouse gas emission in Australia are expected based on the predicted electricity consumption in 2010. This project will develop a new technology for fabricating larger electrical machines from AMM laminations. It targets the national research priorities in Frontier Technologies and An Environmentally Sustainable Australia.Read moreRead less
Flame-Retarding and Mechanically Resilient Elastomer Composites. This project will develop a new generation of flame-retarding and mechanically resilient elastomer composites by taking advantage of nanoscale effect and synergy. The outcomes will be two types of flame-retarding additive pellets and their elastomer composites; these pellets also suit other polymers such as thermoplastics. The elastomer composites are expected to have excellent flame retardancy, mechanical properties, and fatigue p ....Flame-Retarding and Mechanically Resilient Elastomer Composites. This project will develop a new generation of flame-retarding and mechanically resilient elastomer composites by taking advantage of nanoscale effect and synergy. The outcomes will be two types of flame-retarding additive pellets and their elastomer composites; these pellets also suit other polymers such as thermoplastics. The elastomer composites are expected to have excellent flame retardancy, mechanical properties, and fatigue performance, to meet the demands from industrial partners. The project will provide a platform for elastomer manufacturing industry to develop flame-retarding, high-performance products for domestic applications and for export. Read moreRead less
Understanding the role of nanoparticles in water based lubrication. This project seeks to understand the role of nanoparticles in the lubrication of hot strip rolling and then to develop novel nano-additive water-based lubricants to solve a long-standing issue for the steel-making industry. Lubrication significantly affects the surface quality of hot-rolled strips, roll wear and energy consumption in the steel-making industry. Currently, oil-based lubricants are used. However, their lubricant ef ....Understanding the role of nanoparticles in water based lubrication. This project seeks to understand the role of nanoparticles in the lubrication of hot strip rolling and then to develop novel nano-additive water-based lubricants to solve a long-standing issue for the steel-making industry. Lubrication significantly affects the surface quality of hot-rolled strips, roll wear and energy consumption in the steel-making industry. Currently, oil-based lubricants are used. However, their lubricant effect is considerably reduced by the use of high pressure cooling water, and the waste discharge is of environmental concern. Successful outcomes for the project are expected to improve product quality and reduce resource use.Read moreRead less
Damage-Free Surfacing of Large Brittle Wafers with On-Machine Flatness Control. The knowledge gained from this research project will be of great value to the development of new generations of high-integrity semiconductor systems for high-speed telecommunication, large-scale computation, transport, biomedicine, agriculture, mining and security. The outcomes will have significant impact on the ultra-precision discipline scientifically and will sharpen the competitive edge of the Australian fabrica ....Damage-Free Surfacing of Large Brittle Wafers with On-Machine Flatness Control. The knowledge gained from this research project will be of great value to the development of new generations of high-integrity semiconductor systems for high-speed telecommunication, large-scale computation, transport, biomedicine, agriculture, mining and security. The outcomes will have significant impact on the ultra-precision discipline scientifically and will sharpen the competitive edge of the Australian fabrication industry. The research will open up remarkable opportunities for young researchers to work in one of the most frontier fields in the 21st century.Read moreRead less
Advanced products through multiscale microstructure engineering. The metals manufacturing industry is one of the most important in Australia. Future growth and sustainability of the sector is critically dependent on the development of innovative metal products and materials.. In this program Australia's leading research group in metal manufacturing will develop new products and processes through the controlled manipulation of the microstructure at a number of levels: from nano scale to macro s ....Advanced products through multiscale microstructure engineering. The metals manufacturing industry is one of the most important in Australia. Future growth and sustainability of the sector is critically dependent on the development of innovative metal products and materials.. In this program Australia's leading research group in metal manufacturing will develop new products and processes through the controlled manipulation of the microstructure at a number of levels: from nano scale to macro scale. The areas of application include the automotive industry, biomaterials, surface engineering and the emerging area of microforming technologiesRead moreRead less
Special Research Initiatives - Grant ID: SR0354722
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
Research Network for Multi-Scale Manufacturing and Characterisation. Manufacturing has always been the cornerstone of long-term economic growth. With the recent development in micro/nano-technologies, the manufacture of devices with functional properties across multiple scales has become a central challenge. In Australia, individual research teams have had significant impact on the manufacture of single scale elements, but owing to their limited infrastructure and specialised expertise, integrat ....Research Network for Multi-Scale Manufacturing and Characterisation. Manufacturing has always been the cornerstone of long-term economic growth. With the recent development in micro/nano-technologies, the manufacture of devices with functional properties across multiple scales has become a central challenge. In Australia, individual research teams have had significant impact on the manufacture of single scale elements, but owing to their limited infrastructure and specialised expertise, integrated multi-scale manufacturing has been unattainable. Through collaboration and sharing of expertise and infrastructure, the proposed Research Network, composed of the major Australian teams in manufacturing and leading divisions overseas, will foster innovation in multi-scale manufacturing and characterization in Australia.Read moreRead less