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.
Designing starches for increased productivity in mineral flotation. Designing starches for increased productivity in mineral flotation. This project aims to understand the process of starch-mineral surface interactions, and design and develop tailored starch depressant/flocculant biopolymers for mineral beneficiation via the froth flotation process. Natural and modified starches are used as depressants and flocculants in mineral flotation, but scientists lack knowledge of mechanisms describing s ....Designing starches for increased productivity in mineral flotation. Designing starches for increased productivity in mineral flotation. This project aims to understand the process of starch-mineral surface interactions, and design and develop tailored starch depressant/flocculant biopolymers for mineral beneficiation via the froth flotation process. Natural and modified starches are used as depressants and flocculants in mineral flotation, but scientists lack knowledge of mechanisms describing starch-mineral surface interactions, particularly how they process base metal sulphides. This project also intends to develop starch characterisation techniques and novel methods for modifying starch structures and functionalities. Anticipated outcomes are new novel manufacturing applications for starch in Australia.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
Development of next generation smart sucker rod wear guides . In a natural gas wells, sucker rod guides protect the production tubing from wear by the rod string. Premature and erratic failures are costing the industry tens of millions every year. In collaboration with two local SMEs, this project aims to develop the next generation of smart and durable wear guides. The project seeks to understand the complex three body wear mechanisms that drive guide and tubing wear, then use this knowledge to ....Development of next generation smart sucker rod wear guides . In a natural gas wells, sucker rod guides protect the production tubing from wear by the rod string. Premature and erratic failures are costing the industry tens of millions every year. In collaboration with two local SMEs, this project aims to develop the next generation of smart and durable wear guides. The project seeks to understand the complex three body wear mechanisms that drive guide and tubing wear, then use this knowledge to develop new wear resistant compounds and develop a smart guide that provides feedback on its wear state. This will enable the industry partners to supply cutting edge technology to the global oil and gas industry that not only reduces well operation cost but also enhances well resilience.Read moreRead less
Novel microwave processing of carbon nanotube/thermoplastic composites. This project aims to develop a novel fabrication process for carbon nano-tube (CNT) / thermoplastic composites. The method, with lab based ‘proof of concept’, uses microwaves and overcomes problems of dispersion and aggregation of CNTs, which limit properties of the nano-composites. At lab scale, a 50 per cent increase in stiffness of polypropylene and an increase in electrical conductivity with the addition of 0.5 weight pe ....Novel microwave processing of carbon nanotube/thermoplastic composites. This project aims to develop a novel fabrication process for carbon nano-tube (CNT) / thermoplastic composites. The method, with lab based ‘proof of concept’, uses microwaves and overcomes problems of dispersion and aggregation of CNTs, which limit properties of the nano-composites. At lab scale, a 50 per cent increase in stiffness of polypropylene and an increase in electrical conductivity with the addition of 0.5 weight percent CNT has been demonstrated. This project should unravel mechanisms by which these outstanding property improvements are achieved and will scale up the process to industrial level. Expected outcomes will be economical, lighter and stronger plastics for manufacturing applications such as rotational molding, transport and electronic packaging.Read moreRead less
High performance polymer fibres for recyclable composites . The project aims to develop novel drawn polymer fibres with aligned carbon nanotubes incorporated inside and also grafted nanotubes on their surface. Such polymer fibres can be used to reinforce thermoplastics to make high performance composites with effective recyclability. This is important as the existing thermosetting composites are not recyclable and significant property enhancement require high loading (>30%) of reinforcing fibres ....High performance polymer fibres for recyclable composites . The project aims to develop novel drawn polymer fibres with aligned carbon nanotubes incorporated inside and also grafted nanotubes on their surface. Such polymer fibres can be used to reinforce thermoplastics to make high performance composites with effective recyclability. This is important as the existing thermosetting composites are not recyclable and significant property enhancement require high loading (>30%) of reinforcing fibres. The outcomes of this project will be novel technology for making high stiffness polymer fibres and their use in thermoplastic composites. The benefits will be to allow easy processing and recycling. They will be used in down-sizing of high volume products and high value automotive or aerospace products.Read moreRead less
Functionalised biopolymers - a new class of renewable nano-engineered materials. Licella is an Australian start-up company, focusing on developing uses for the renewable resource lignocellulosic biomass; a fibrous material sourced principally from waste, such as that generated by forestry and agricultural operations. It is possible to use such waste and process it to separate the biomass components. This project proposes to modify these biomass fractions with living radical polymerisation (LPR) ....Functionalised biopolymers - a new class of renewable nano-engineered materials. Licella is an Australian start-up company, focusing on developing uses for the renewable resource lignocellulosic biomass; a fibrous material sourced principally from waste, such as that generated by forestry and agricultural operations. It is possible to use such waste and process it to separate the biomass components. This project proposes to modify these biomass fractions with living radical polymerisation (LPR) polymers to impart functionalities, such as antimicrobial properties, high tensile strengths and/or in-built photodegrability. New, high-performance sustainable materials like these will be the back-bone of the polymer/plastics industry of the future, replacing common plastics, sourced from non-renewable petrochemicals, with benign, sustainable plastics.Read moreRead less