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
An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspe ....An innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites. By fully taking advantage of excellent affinity of water with polar layered silicate and polar polymer, an innovative approach to fabricate thermally stable polymer/layered silicate nanocomposites via melt extrusion with the aid of water/water vapour will be developed. In this process, the pristine layered silicate will be directly exfoliated into individual layers with nanometer thickness and high aspect ratio, and uniformly dispersed in a polymer matrix. This novel approach is environmentally benign and cost-effective since no alkyl ammonium surfactants are required. The resultant nanocomposites will exhibit excellent barrier properties, high thermal stability, environmental durability and superior mechanical properties. These qualities make them very attractive for many applications in the automotive and packaging industries.Read moreRead less
NANOSCALE NETWORKS OF ORGANIC POLYMER/C60 FULLERENE BLENDS FOR HIGH EFFICIENCY SOLAR CELLS. Recent demonstrations of increased efficiencies in polymer-fullerene blend plastic films provide the prospect of low cost photovoltaic elements with the potential for widespread application. Further progress with these materials is strongly indicated. We will characterise these materials at the nanoscale to make further improvements in film morphology and employ our expertise in experimental investigation ....NANOSCALE NETWORKS OF ORGANIC POLYMER/C60 FULLERENE BLENDS FOR HIGH EFFICIENCY SOLAR CELLS. Recent demonstrations of increased efficiencies in polymer-fullerene blend plastic films provide the prospect of low cost photovoltaic elements with the potential for widespread application. Further progress with these materials is strongly indicated. We will characterise these materials at the nanoscale to make further improvements in film morphology and employ our expertise in experimental investigation of transport properties to gain a more complete understanding of the electronic and photonic processes underlying photovoltaic efficiency. Australia is ideally situated geographically and has a strong tradition of inventive engineering from which we can benefit and capitalise significantly on further improvements in the materials to be investigated.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 composite materials from waste paper and plastics. Significant tonnages of plastics are currently not recycled because of paper impurities. This project will develop compounding and processing procedures, define the thermal and mechanical properties of the recycled composites and develop novel composite materials using plastics as a matrix and waste paper as a filler. These processes will then be applied to factory trials.
Development of design guidelines for recycled plastic material and structural components. It is estimated that by 2010 over 1.2 million tonnes of plastic will be used annually by Australians of which only 3% is currently recycled. Preliminary testing of recycled plastic products has demonstrated their potential usefulness in structural engineering applications. However, the lack of guidelines suitable for advanced applications of recycled plastic is limiting the growth of this technology. This p ....Development of design guidelines for recycled plastic material and structural components. It is estimated that by 2010 over 1.2 million tonnes of plastic will be used annually by Australians of which only 3% is currently recycled. Preliminary testing of recycled plastic products has demonstrated their potential usefulness in structural engineering applications. However, the lack of guidelines suitable for advanced applications of recycled plastic is limiting the growth of this technology. This project aims to develop a set of rational guidelines for the testing, analysis and design of recycled plastic material and structural components that will enable the continued expansion of this technology, significantly reducing waste plastic.Read moreRead less
Modelling rheology and flow parameters of injection moulding of liquid crystal polymer materials. Australian company Moldflow is a world leader in the modelling and simulation of injection moulding plastic parts, yet its sophisticated software is inadequate for liquid crystalline polymers. This research aims to redress this by appropriate rheological study of these materials, incorporating suitable rheological model in the simulation and by experimental validation. The benefit will be new know ....Modelling rheology and flow parameters of injection moulding of liquid crystal polymer materials. Australian company Moldflow is a world leader in the modelling and simulation of injection moulding plastic parts, yet its sophisticated software is inadequate for liquid crystalline polymers. This research aims to redress this by appropriate rheological study of these materials, incorporating suitable rheological model in the simulation and by experimental validation. The benefit will be new knowledge of the injection moulding process, enhancement of Australia's scientific reputation in this field, extension of the Moldflow software to a wider polymer range, new markets nationally and internationally, competitive edge of the improved software and contribution to national economy due to new business.Read moreRead less
An Intelligent Computer Aided Engineering Environment for Design and Production of Blow Moulded PET Bottles. The aim of this research proposal is to develop an intelligent computer aided engineering environment for design and manufacturing of blow moulded PET bottles. Current techniques involve a mixture of trial and error leading to high costs in time and money. The proposed research will adopt a concurrent engineering approach and integrating intelligent knowledge based systems for optimum p ....An Intelligent Computer Aided Engineering Environment for Design and Production of Blow Moulded PET Bottles. The aim of this research proposal is to develop an intelligent computer aided engineering environment for design and manufacturing of blow moulded PET bottles. Current techniques involve a mixture of trial and error leading to high costs in time and money. The proposed research will adopt a concurrent engineering approach and integrating intelligent knowledge based systems for optimum part design of PET bottles, PET preform and moulds based on user specific requirements. The work is expected to provide a highly efficient environment able to design and produce a new PET bottle economically and quickly with maximum functional performance.Read moreRead less