Novel injection moulded polymer substrates for solid phase applications. Solid phase organic reactions form the basis of many applications in drug design and development and medical applications. This project proposes the development of novel solid phase materials via control of novel insitu crosslinking and foaming processes and novel process molding control. This will enable more controlled large scale rapid production and detection of materials for biological and medical uses.
High performance thermoplastic starch polymer films for controlled barrier and delivery. This project will deliver state of the art developments in high performance sustainable plastics. Specifically the project will develop new biopolymers for high-performance applications, such as smart packaging, biomedical materials and drug delivery systems.
Lightweight Photovoltaic Modules for Low-Load Capacity Building Roofs. This project aims to develop lightweight and reliable high efficiency photovoltaic modules that expand solar energy installations onto low-load capacity building roofs. New lightweight materials will be developed for packaging with multi-functionalities such as fast heat dissipation. This project will produce economical prototypes and enable and
facilitate cost reduction of crystalline silicon photovoltaic module installation ....Lightweight Photovoltaic Modules for Low-Load Capacity Building Roofs. This project aims to develop lightweight and reliable high efficiency photovoltaic modules that expand solar energy installations onto low-load capacity building roofs. New lightweight materials will be developed for packaging with multi-functionalities such as fast heat dissipation. This project will produce economical prototypes and enable and
facilitate cost reduction of crystalline silicon photovoltaic module installations on lightweight buildings, overcoming current constraints of heavy glass modules and making more solar energy exploited in both Australia’s urban and rural areas. This will get steps closer to zero emission buildings, by providing renewable energy alternative to conventional fossil fuel-based power generation.Read moreRead less
Formation and characterisation of continuous electrospun nanofibre yarns. Australia historically has a strong fibre and textile industry that can be augmented by embracing emerging nanotechnology. The proposed research will develop a technology that can greatly improve the productivity of nanofibres. These fibres can then be spun into continuous yarns and other form of textile products. The nanostructured products offer exceptional functions for biomedical and environmental applications. This ne ....Formation and characterisation of continuous electrospun nanofibre yarns. Australia historically has a strong fibre and textile industry that can be augmented by embracing emerging nanotechnology. The proposed research will develop a technology that can greatly improve the productivity of nanofibres. These fibres can then be spun into continuous yarns and other form of textile products. The nanostructured products offer exceptional functions for biomedical and environmental applications. This new technology has the potential to transform the Australian textile technology and fibre processing industry. Read moreRead less
High-Performance Polymer Composites for Electrical Discharging. This project aims to address the problem of electrostatic discharge by developing new industry-compatible processing techniques and taking advantage of the synergy between graphene and carbon nanotubes and fibres. Electrostatic discharge due to accumulation of static electricity is a significant problem for lightweight polymer composites used in hazard environments, such as pumps for underground mining, oil and gas storage and satel ....High-Performance Polymer Composites for Electrical Discharging. This project aims to address the problem of electrostatic discharge by developing new industry-compatible processing techniques and taking advantage of the synergy between graphene and carbon nanotubes and fibres. Electrostatic discharge due to accumulation of static electricity is a significant problem for lightweight polymer composites used in hazard environments, such as pumps for underground mining, oil and gas storage and satellites. The outcomes will potentially transform the current manufacturing practice of anti-static composites for industry applications including mining, energy, space and agriculture. Read moreRead less
Condition monitoring and process control of injection molding. Injection molding has been widely used in automotive industry and improvement of the productivity and quality of the products is very important for the injection molding production to be internationally competitive. The aim of this project is to develop a condition monitoring and process control system to monitor the key parameters of the injection molding processes, to optimise the design and process conditions, and consequently, to ....Condition monitoring and process control of injection molding. Injection molding has been widely used in automotive industry and improvement of the productivity and quality of the products is very important for the injection molding production to be internationally competitive. The aim of this project is to develop a condition monitoring and process control system to monitor the key parameters of the injection molding processes, to optimise the design and process conditions, and consequently, to more actively control the processes. This will lead to an more reliable process, improved productivity and production of higher quality of moldings.Read moreRead less
Fire-Retardant Composite Resins for Bushfire-Safe Wind Farm Infrastructures. This project aims to develop advanced fire-retardant composite resins for manufacturing bushfire-safe wind farm infrastructures. The innovation of the project is the development of a new class of low-cost, novel, highly effective fire retardants and their value-added fire-retardant composite resins with well-preserved physical properties. This will be achieved by understanding the composition-property relationship of fi ....Fire-Retardant Composite Resins for Bushfire-Safe Wind Farm Infrastructures. This project aims to develop advanced fire-retardant composite resins for manufacturing bushfire-safe wind farm infrastructures. The innovation of the project is the development of a new class of low-cost, novel, highly effective fire retardants and their value-added fire-retardant composite resins with well-preserved physical properties. This will be achieved by understanding the composition-property relationship of fire retardants and optimising their synthetic parameters. The project will help position Australia’s advanced composite manufacturing at the forefront of technology. It will also accelerate Australia’s energy transition to renewables by enabling bushfire-safe wind farm infrastructure.Read moreRead less
Self-powered active noise control via a nanofibre acoustoelectric converter. This project aims to investigate a new, active noise control system that can eliminate low frequency noise without the use of external electricity. This project will generate new knowledge about how to realise self-powering on active noise controllers using piezoelectric nanofibres as sound detector and power generator. Expected outcomes include an effective method to produce this novel noise controller and a systemic u ....Self-powered active noise control via a nanofibre acoustoelectric converter. This project aims to investigate a new, active noise control system that can eliminate low frequency noise without the use of external electricity. This project will generate new knowledge about how to realise self-powering on active noise controllers using piezoelectric nanofibres as sound detector and power generator. Expected outcomes include an effective method to produce this novel noise controller and a systemic understanding about materials, devices and performance. This will significantly benefit development of advanced noise controlling technology and products, benefiting industry and the environment.Read moreRead less
Experimental validation of the strain invariant failure theory for carbon/epoxy composites. The project will be of national and international benefit, through providing a validated, enhanced design capability for advanced composite materials. Greater depth of understanding of such materials will allow more efficient structures to be designed in applications requiring high strength and stiffness, low weight, and resistance to corrosion and fatigue. Such applications include the aerospace, offshor ....Experimental validation of the strain invariant failure theory for carbon/epoxy composites. The project will be of national and international benefit, through providing a validated, enhanced design capability for advanced composite materials. Greater depth of understanding of such materials will allow more efficient structures to be designed in applications requiring high strength and stiffness, low weight, and resistance to corrosion and fatigue. Such applications include the aerospace, offshore and mining industries. There are, therefore, far-reaching benefits in industries important to Australia. In addition, the reputation of the Australian aerospace research industry will be promoted through a collaborative association with Boeing, a world leader in development of commercial aircraft.Read moreRead less
Non-polyamide-based polymer membranes for efficient water processing. This project aims to develop an innovative, two-dimensional nanosheet scaffold polymerisation technique for the fabrication of advanced membranes. Membrane technology plays a key role in wastewater treatment and water desalination and purification. However, current membranes are not stable in an oxidation environment such as chlorine, which leads to significant membrane replacement costs. Through the development of new membran ....Non-polyamide-based polymer membranes for efficient water processing. This project aims to develop an innovative, two-dimensional nanosheet scaffold polymerisation technique for the fabrication of advanced membranes. Membrane technology plays a key role in wastewater treatment and water desalination and purification. However, current membranes are not stable in an oxidation environment such as chlorine, which leads to significant membrane replacement costs. Through the development of new membrane fabrication technology the project aims to produce non-polyamide-based polymer membranes with outstanding oxidation tolerance and separation properties. This will potentially simplify membrane processes, and improve water processing efficiency in wastewater treatment for power generation, and clean drinking water production.
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