Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0211003
Funder
Australian Research Council
Funding Amount
$125,000.00
Summary
A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this a ....A Facility for Probing Nanostructure in Polymers. The properties of a polymer are only partly determined by its molecular structure. It is now clear that the organization of molecular structure and phase morphology on a nano-scale has an equally important role in determining material behaviour. Increasingly this can be manipulated by judicious choice of formulation and processing variables. The polymer Nano-Structure Facility will bring together Australia's principal polymer experts in this area of structure-property relations and provide them with shared access to the appropriate, modern analytical tools required to probe the nano-structure of such new materials with enhanced properties.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668517
Funder
Australian Research Council
Funding Amount
$220,000.00
Summary
Hyphenated techniques in polymer science and engineering. The collaborator's research capabilities will be greatly enhanced because the equipment will allow simultaneous measurements of various properties which can provide much more information than sequential experiments. Students will be able to undertake research with state-of-the-art equipment which will enhance their research careers and employment prospects. The resulting information will be invaluable to the development of polymer blends ....Hyphenated techniques in polymer science and engineering. The collaborator's research capabilities will be greatly enhanced because the equipment will allow simultaneous measurements of various properties which can provide much more information than sequential experiments. Students will be able to undertake research with state-of-the-art equipment which will enhance their research careers and employment prospects. The resulting information will be invaluable to the development of polymer blends with optimized morphology and mechanical properties; improved polymer processing techniques linked to how the structure and orientation develops; the development of new materials, including novel human tissue implants, from studies of the rheology and phase structure of a polymer during photopolymerization.Read moreRead less
Structure-Property Relationships of Polymers with Controlled Architecture. Mechanical properties of a polymer (e.g., how elastic it is and how it dissipates energy when compressed) govern how well it performs as an adhesive, or its behaviour when melted and shaped into a consumer item. This project aims to relate molecular architecture to mechanical properties, using new techniques which permit the creation of polymers wherein each architectural characteristic is separately controlled. This has ....Structure-Property Relationships of Polymers with Controlled Architecture. Mechanical properties of a polymer (e.g., how elastic it is and how it dissipates energy when compressed) govern how well it performs as an adhesive, or its behaviour when melted and shaped into a consumer item. This project aims to relate molecular architecture to mechanical properties, using new techniques which permit the creation of polymers wherein each architectural characteristic is separately controlled. This has the potential to develop fundamental understanding for structure-property relations for the type of branched polymers that are in common use in industry and for which adequate models do not currently exist.Read moreRead less
An Integrated Framework for Optimisation and Control of Key Product Properties in Emulsion Polymerisation. Emulsion polymerization is of major industrial importance. In addition to process efficiency, the use of water as the reactor medium provides environmental benefits. This proposal is aimed at building an integrated framework to analyse, model, control and optimise emulsion polymerisation systems in order to understand, design and operate such complex systems to obtain desired polymer produc ....An Integrated Framework for Optimisation and Control of Key Product Properties in Emulsion Polymerisation. Emulsion polymerization is of major industrial importance. In addition to process efficiency, the use of water as the reactor medium provides environmental benefits. This proposal is aimed at building an integrated framework to analyse, model, control and optimise emulsion polymerisation systems in order to understand, design and operate such complex systems to obtain desired polymer product characteristics. Complex kinetic, transport and evolution equations will be analysed and solved for predicting and controlling key product properties. This project will provide not only a significant advance in fundamental knowledge of polymerisation systems but will also enable production of cost-effective ?designer polymers? for a wide-range of applications.Read moreRead less
Novel network polymers with photoinduced plasticity. The production of crosslinked polymers (thermosets and rubbers) is a multi-billion dollar industry and these polymers are irreplaceable in their use in numerous applications in the household goods, medical, electronics, automotive and construction industries. However, they shrink during solidification causing internal stresses which weaken them and they can not be reshaped, repaired or recycled. This study will develop a novel range of cros ....Novel network polymers with photoinduced plasticity. The production of crosslinked polymers (thermosets and rubbers) is a multi-billion dollar industry and these polymers are irreplaceable in their use in numerous applications in the household goods, medical, electronics, automotive and construction industries. However, they shrink during solidification causing internal stresses which weaken them and they can not be reshaped, repaired or recycled. This study will develop a novel range of crosslinkable polymers which can change shape on irradiation by light (or by heating) for use in applications ranging from repairable composites, stress-free lens, non-shrinking dental filling materials and light-sensitive actuators which will have significant benefit to industry.Read moreRead less
High efficiency photoinitiators for novel photopolymerization processes. The radiation curing industry is worth several billion dollars world-wide with an Australian market of ca. $100 million and an even greater market in the Asian region. One of the main factors controlling the expansion of this industry is the development of new photoinitiator systems with improved performance. This project aims to combine the skills of three leading scientists in the photocuring field to develop more efficie ....High efficiency photoinitiators for novel photopolymerization processes. The radiation curing industry is worth several billion dollars world-wide with an Australian market of ca. $100 million and an even greater market in the Asian region. One of the main factors controlling the expansion of this industry is the development of new photoinitiator systems with improved performance. This project aims to combine the skills of three leading scientists in the photocuring field to develop more efficient, environmentally-friendly systems by controlling the initiation and polymerization mechanisms in (meth)acrylate, cyclic ether, cyanate and vinyl ethers. This should benefit local manufacturers exporting into the printing, adhesive, dental, lithography, composite industries and to the photopolymer industry generally.Read moreRead less
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.
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
Novel Tough Polymer Composites. Advanced composites are used in high value-added applications such as computer chip packaging and aerospace applications. In these applications epoxy systems are used despite their inherent brittleness. Much research has focused on toughening epoxy systems, but most tougheners cause a reduction in processing or material properties. This project focuses on developing novel epoxy tougheners during the polymerisation of the epoxy-based composite. Specifically we will ....Novel Tough Polymer Composites. Advanced composites are used in high value-added applications such as computer chip packaging and aerospace applications. In these applications epoxy systems are used despite their inherent brittleness. Much research has focused on toughening epoxy systems, but most tougheners cause a reduction in processing or material properties. This project focuses on developing novel epoxy tougheners during the polymerisation of the epoxy-based composite. Specifically we will use novel hyperbranched [star-like] polymers that have excellent processing properties, high reactivity for structure control and the ability to control toughening at the molecular and macroscopic level to produce novel technology for advanced composites.
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Polymerization Mechanism and Kinetics of 1,1-Disubstituted Monomers. This project focuses on two exciting research areas: (I) we have found that an oxygen atom b to the double bond activates radical polymerization, making a whole new family of polymeric structures accessible, and (II) we have strong preliminary data that demonstrates a very large solvent effect on propagation and termination reactions for acrylic monomers with an a-CH2OH functionality, suggesting that significant control can be ....Polymerization Mechanism and Kinetics of 1,1-Disubstituted Monomers. This project focuses on two exciting research areas: (I) we have found that an oxygen atom b to the double bond activates radical polymerization, making a whole new family of polymeric structures accessible, and (II) we have strong preliminary data that demonstrates a very large solvent effect on propagation and termination reactions for acrylic monomers with an a-CH2OH functionality, suggesting that significant control can be exerted over the polymerization process using additives. Additionally, we demonstrate that polymers containing repeat units with an a-CH2OH functionality can undergo reversible cyclization, enabling a whole range of novel functional materials.Read moreRead less