Nanoporous Epoxy Thermosets via Microphase Separation of Block Copolymers. This project has many expected outcomes and benefits to Australia: (1) Development of the first technology to produce nanoporous epoxy thermosets (i.e. epoxy nanofoams) that may have many applications in microelectronics, optical waveguides and biological separations; (2) Providing impetus for an advanced materials synthesis and manufacturing industry for Australia and contributing to the Frontier Technologies National Re ....Nanoporous Epoxy Thermosets via Microphase Separation of Block Copolymers. This project has many expected outcomes and benefits to Australia: (1) Development of the first technology to produce nanoporous epoxy thermosets (i.e. epoxy nanofoams) that may have many applications in microelectronics, optical waveguides and biological separations; (2) Providing impetus for an advanced materials synthesis and manufacturing industry for Australia and contributing to the Frontier Technologies National Research Priority-Advanced Materials Priority Goals; (3) The development of new niche markets with these new materials and the new technologies, which is an excellent vehicle for Australia to move to a high-value added industrial portfolio that maximises return and promotes job growth.Read moreRead less
Blends of reactive plasticizers with thermoplastic composites for improved processing and properties. This proposal is directed at novel methods of enhancing the processibility, properties and applications of polymers and should have a significant economic impact on the $7 billion commodity polymer market for Australian polymer producers and polymer converters.
The project would also extend the research opportunities of students and researchers in the rapidly growing fields of nano-composites a ....Blends of reactive plasticizers with thermoplastic composites for improved processing and properties. This proposal is directed at novel methods of enhancing the processibility, properties and applications of polymers and should have a significant economic impact on the $7 billion commodity polymer market for Australian polymer producers and polymer converters.
The project would also extend the research opportunities of students and researchers in the rapidly growing fields of nano-composites and reactive polymer processing.Read moreRead less
Metabolic engineering of sugarcane: production of a biodegradable bioplastic as a test-case. The aim of this project is to produce a commercially valuable bioplastic called PHB in transgenic sugarcane. This bioplastic has similar properties to petrochemically produced polypropylene, but is fully biodegradable. PHB has been produced in the model plant Arabidopsis thaliana at commercially viable levels. The expected outcome of high-level production of PHB in sugarcane would have significant ben ....Metabolic engineering of sugarcane: production of a biodegradable bioplastic as a test-case. The aim of this project is to produce a commercially valuable bioplastic called PHB in transgenic sugarcane. This bioplastic has similar properties to petrochemically produced polypropylene, but is fully biodegradable. PHB has been produced in the model plant Arabidopsis thaliana at commercially viable levels. The expected outcome of high-level production of PHB in sugarcane would have significant benefits to the Australian sugar industry, the rural economy, and the Australian environment.Read moreRead less
Development of High Performance Mechanical Sorting of Plastics for Recycling. This research program aims to develop and test a range of high performance, mechanical in-process plastics sorting technologies in conjunction with Australia's lead recycling company. Currently, recycling techniques result in an insufficient purity and quality level, thus limiting the extent of recycling and opportunity for end product applications. Increasing the purity of recycled plastics and economics of recyclin ....Development of High Performance Mechanical Sorting of Plastics for Recycling. This research program aims to develop and test a range of high performance, mechanical in-process plastics sorting technologies in conjunction with Australia's lead recycling company. Currently, recycling techniques result in an insufficient purity and quality level, thus limiting the extent of recycling and opportunity for end product applications. Increasing the purity of recycled plastics and economics of recycling, without compromising throughput levels, will result in an increase in recycling rates and the range of applications of recycled plastics.Read moreRead less
Development of Advanced Polymers from Recycled Industrial Plastics for Replacement of Virgin Resins. The main objective of this research program is to develop strategies and techniques to develop advanced polymeric materials obtained from recycled industrial plastics for replacement of virgin resins in industrial packaging. Studies show that only a very small amount of such plastic is reclaimed after industrial use. The research will include a comprehensive study of the life cycle of the indus ....Development of Advanced Polymers from Recycled Industrial Plastics for Replacement of Virgin Resins. The main objective of this research program is to develop strategies and techniques to develop advanced polymeric materials obtained from recycled industrial plastics for replacement of virgin resins in industrial packaging. Studies show that only a very small amount of such plastic is reclaimed after industrial use. The research will include a comprehensive study of the life cycle of the industrial packaging products, development of new blends of the recycled resins, and the application of these blends to manufacture good quality injection moulded and blow moulded products including new plastic pails and containers for industrial use.Read moreRead less
Nanostructure Design and Toughening Mechanisms of Novel Thermosets. The research will enable a new technology to manufacture a class of novel nanostructured thermosets that will impact many application areas in Australia, such as protective surface coatings, structural adhesives and composite matrix materials for aerospace and automotive, and microelectronic devices, etc. The intellectual properties and patents generated will contribute to the overall competitiveness and productivity of Australi ....Nanostructure Design and Toughening Mechanisms of Novel Thermosets. The research will enable a new technology to manufacture a class of novel nanostructured thermosets that will impact many application areas in Australia, such as protective surface coatings, structural adhesives and composite matrix materials for aerospace and automotive, and microelectronic devices, etc. The intellectual properties and patents generated will contribute to the overall competitiveness and productivity of Australia~{!/~}s R&D. They will also provide business opportunities to develop niche markets for these new and high-value added materials on a large scale in Australia so as to maximise return and create jobs. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237936
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
Research facility for plastics and composites : Dynamic Mechanical Analyser and Rheometer System. The Dynamic Mechanical Analyser (DMA) and Control Stress Rheometer System is a unique set of equipment where both instruments can be run simultaneously using the same controller module. The DMA can provide quantitative and qualitative information on high spectrum of mechanical and rheological properties of materials in solid state. The Rheometer complements the DMA by providing information about pro ....Research facility for plastics and composites : Dynamic Mechanical Analyser and Rheometer System. The Dynamic Mechanical Analyser (DMA) and Control Stress Rheometer System is a unique set of equipment where both instruments can be run simultaneously using the same controller module. The DMA can provide quantitative and qualitative information on high spectrum of mechanical and rheological properties of materials in solid state. The Rheometer complements the DMA by providing information about properties of materials in liquid state. The equipment will be used both for academic research of plastic, ceramic and composite materials and for industrial projects in the areas of material processing, recycling of plastics and for building a database of material's properties. Read moreRead less