Sustainability Cockpit: an integrated tool for assessment and improvement of sustainability in manufacturing. This project aims to understand the relation between the traditional business indicators, such as cost, and the environmental indicators, such as carbon footprint. The outcome of this project will be an integrated tool which will allow manufacturers to assess and improve their environmental footprint in a cost effective manner.
Energy and water efficiency in Australian manufacturing. This project aims at developing an interdisciplinary solution to increase the understanding of energy and water flows in manufacturing companies. The proposed approach will lead to the development of technical solutions to increase the efficient usage of energy and water on a continuous basis.
Condition-based maintenance optimisation for Australian sugar industry. The aim of this project is to develop innovative methodologies for the implementation of condition-based maintenance in the sugar milling industry. This is designed to optimise the allocation of limited maintenance resources and to significantly reduce the $350 million spent on maintenance in the industry each year. New methodologies will account for the seasonality of production and the complexity of allocating limited main ....Condition-based maintenance optimisation for Australian sugar industry. The aim of this project is to develop innovative methodologies for the implementation of condition-based maintenance in the sugar milling industry. This is designed to optimise the allocation of limited maintenance resources and to significantly reduce the $350 million spent on maintenance in the industry each year. New methodologies will account for the seasonality of production and the complexity of allocating limited maintenance resources across numerous equipment items and different production sites. The intended outcome of the project will improve the efficiency of maintenance and hence the global competitiveness of the Australian sugar industry.Read moreRead less
A Simulation-Based Approach to Understanding Alternative Supply Chain Configurations. The research developed in this project has value to the broader Australian community because it will lead to the development of a decision support system for configuring more strategic, cost effective and efficient supply chains. The modelling techniques developed in the project together with the crucial training and experience in large scale experimental and survey techniques will help to establish a high qual ....A Simulation-Based Approach to Understanding Alternative Supply Chain Configurations. The research developed in this project has value to the broader Australian community because it will lead to the development of a decision support system for configuring more strategic, cost effective and efficient supply chains. The modelling techniques developed in the project together with the crucial training and experience in large scale experimental and survey techniques will help to establish a high quality centre for supply chain research. The decision support system and other techniques utilised in the project have potential for commercialisation for the benefit of Australian commerce. Read moreRead less
Machining-induced damage mechanisms in KDP crystals. This project aims to produce damage-free potassium dihydrogen phosphate (KDP) crystals. How machining-induced damage reduces these crystals’ property thresholds is unclear, which hinders the development of high performance devices relying on KDP. This project will use multi-scale modelling and in-situ experiments to research machining-induced damage in KDP. This project is expected to establish a knowledge base of machining-induced damage of K ....Machining-induced damage mechanisms in KDP crystals. This project aims to produce damage-free potassium dihydrogen phosphate (KDP) crystals. How machining-induced damage reduces these crystals’ property thresholds is unclear, which hinders the development of high performance devices relying on KDP. This project will use multi-scale modelling and in-situ experiments to research machining-induced damage in KDP. This project is expected to establish a knowledge base of machining-induced damage of KDP crystals, important for high performance systems and materials sensitive to environmental conditions, including moisture and temperature.Read moreRead less
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 and modelling an additive process for three-dimensional micro-fabrication. This project aims to develop new scientific knowledge to govern the optimum design and use of a three-dimensional fabrication technology for the precision manufacturing of micro-structures. It will also gain a fundamental understanding of the fabrication process and develop new models for predicting and optimizing the process performance. The intended outcomes will increase Australia's international research st ....Developing and modelling an additive process for three-dimensional micro-fabrication. This project aims to develop new scientific knowledge to govern the optimum design and use of a three-dimensional fabrication technology for the precision manufacturing of micro-structures. It will also gain a fundamental understanding of the fabrication process and develop new models for predicting and optimizing the process performance. The intended outcomes will increase Australia's international research standing in precision and nano/micro manufacturing, while the new technology developed will fill a process gap in fabricating micro-structures and enable industry to quickly respond to market demand at commercially viable cost, particularly for small batch and customized products, and in dental, medical and electronics applications.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
Developing a hybrid waterjet-laser micromachining technology and associated process models for damage-free fabrication of silicon substrates. This hybrid micromachining technology will make it possible for damage-free, fast micro-fabrication of high-integrity devices such as high performance silicon solar cells. It will open new directions for the Australian manufacturing industry in micro-technologies. The environmental and economic benefits to the nation will be highly significant.
A Stress Transfer Principle for Carbon Nanotube Reinforced Materials under Complex Loading. Many breakthrough technologies in the future will build upon carbon nanotube reinforced materials but the scientific basis in the area is still unavailable. This project aims to establish a reliable stress transfer principle so that the design, production and application of the materials can be accurately controlled and the great strength of carbon nanotubes can be wisely utilized. The research will resol ....A Stress Transfer Principle for Carbon Nanotube Reinforced Materials under Complex Loading. Many breakthrough technologies in the future will build upon carbon nanotube reinforced materials but the scientific basis in the area is still unavailable. This project aims to establish a reliable stress transfer principle so that the design, production and application of the materials can be accurately controlled and the great strength of carbon nanotubes can be wisely utilized. The research will resolve a key paradox and develop a series of innovative theories and technologies. The success of the project will make a significant impact on the nanoscience and nanotechnology associated with the applications of carbon nanotube reinforced materials.Read moreRead less