Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347258
Funder
Australian Research Council
Funding Amount
$170,000.00
Summary
Polymer Analysis Facility. The aim of this application is to establish a facility for polymer analysis. The infra-red spectrometer will be used primarily for analysis of polymerisation reactions whilst the thermal analysis equipment is essential for the characterisation of polymers and thin polymer coatings. The facility will contribute an essential analysis capability for three strong research groups who work in different aspects of polymer science. The main outcomes will improved productivity ....Polymer Analysis Facility. The aim of this application is to establish a facility for polymer analysis. The infra-red spectrometer will be used primarily for analysis of polymerisation reactions whilst the thermal analysis equipment is essential for the characterisation of polymers and thin polymer coatings. The facility will contribute an essential analysis capability for three strong research groups who work in different aspects of polymer science. The main outcomes will improved productivity within the current projects together with new collaborations, particularly between the Steel Institute (ISPP) at Wollongong and the Centre of Advanced Molecular Design (CAMD) at UNSW.Read moreRead less
An investigation of the mechanism of lacquer adhesion failure on electrolytic tinplate. "Tin" cans used for food packaging are actually made from tin-plated steel and, in most cases, the metal is coated with a lacquer. This lacquer is required to protect the can from corrosion and the contents from taint. The incidence of adhesion failure between the metal and the lacquer has increased recently for unknown reasons, causing considerable economic loss. This project will investigate the mechanisms ....An investigation of the mechanism of lacquer adhesion failure on electrolytic tinplate. "Tin" cans used for food packaging are actually made from tin-plated steel and, in most cases, the metal is coated with a lacquer. This lacquer is required to protect the can from corrosion and the contents from taint. The incidence of adhesion failure between the metal and the lacquer has increased recently for unknown reasons, causing considerable economic loss. This project will investigate the mechanisms of adhesion failure and improve our fundamental understanding of the problem. The results will be used to enable the selection of process conditions and lacquers that are more robust and reduce the incidence of adhesion failure.Read moreRead less
Soft solids rheology and filled elastomeric networks. Elastomeric networks that have imbedded particles are considerably more difficult to model than unfilled networks because the imbedded particles deform the trajectory of the chains. Any treatment must incorporate this dual nature of the network. Our work will address this important issue with particular reference to two important materials - liquid crystalline elastomers and bread dough. We aim to produce an accurate mathematical description ....Soft solids rheology and filled elastomeric networks. Elastomeric networks that have imbedded particles are considerably more difficult to model than unfilled networks because the imbedded particles deform the trajectory of the chains. Any treatment must incorporate this dual nature of the network. Our work will address this important issue with particular reference to two important materials - liquid crystalline elastomers and bread dough. We aim to produce an accurate mathematical description of filled soft viscoelastic solids, which include compressibility and yielding - two important new features.Read moreRead less
THEORETICAL AND EXPERIMENTAL STUDIES OF BLOCK COPOLYMER MELTS AS NANO-MATERIALS. We shall theoretically study and predict the possible morphologies of a wide range of block copolymer architectures with a combination of simulations and accurate numerical theories. These block copolymer melts are of great technological importance because they can self-assemble into morphological patterns which are periodic on a nano-scale. Hence they are now being intensively investigated for uses in applications ....THEORETICAL AND EXPERIMENTAL STUDIES OF BLOCK COPOLYMER MELTS AS NANO-MATERIALS. We shall theoretically study and predict the possible morphologies of a wide range of block copolymer architectures with a combination of simulations and accurate numerical theories. These block copolymer melts are of great technological importance because they can self-assemble into morphological patterns which are periodic on a nano-scale. Hence they are now being intensively investigated for uses in applications as diverse as lithographic templates for electronic and optical devices, nano-porous membranes and photonic band gap materials. We shall verify our theoretical predictions by carrying out experiments on the various molecular architectures that we have studied theoretically.Read moreRead less
Special Research Initiatives - Grant ID: SR0354521
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Network for Advanced Materials for Engineering Applications. Advances in modern technology and a competitive manufacturing industry depend critically on new and improved materials. The pace of change is rapid, and many countries are taking steps to improve and coordinate developments. Australia has a very successful record of materials research and innovation and is developing a substantial infrastructure in the area. However, the materials research community is scattered, and research effect ....Network for Advanced Materials for Engineering Applications. Advances in modern technology and a competitive manufacturing industry depend critically on new and improved materials. The pace of change is rapid, and many countries are taking steps to improve and coordinate developments. Australia has a very successful record of materials research and innovation and is developing a substantial infrastructure in the area. However, the materials research community is scattered, and research effectiveness is sometimes lessened by a lack of critical mass. This network will bring together university, government and industry researchers, and promote collaborative research, access to each other's facilities, staff and student exchanges, improved access to existing infrastructure and coordinated planning for new acquisitions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347346
Funder
Australian Research Council
Funding Amount
$210,000.00
Summary
Electrochemical Atomic Force Microscope and Nano-Manipulation Facility. This new Facility will add the nano-dimension to the excellent electrochemical mapping facility established at the University of Wollongong over the past 2 years. The instrument we propose to install will allow us to probe electrochemical events and, in particular, the influence of these events on the structure of customised materials at the nano level. This new capability will impact on our research into the development o ....Electrochemical Atomic Force Microscope and Nano-Manipulation Facility. This new Facility will add the nano-dimension to the excellent electrochemical mapping facility established at the University of Wollongong over the past 2 years. The instrument we propose to install will allow us to probe electrochemical events and, in particular, the influence of these events on the structure of customised materials at the nano level. This new capability will impact on our research into the development of efficient artificial muscles, biosensors, corrosion protection coatings, polymeric photovoltaics and new surfaces for mammalian cell culturing.Read moreRead less
New Types of Biomimetic Nanostructured Adhesives. Adhesives are one of the main ways in which we join materials, and have many advantages over other methods of joining. In this work we will make a new class of adhesive using nanotechnology that attempts to copy the very fine-haired feet of animals such as geckos who can stick to almost any surface, under most conditions. We will make these adhesives over large surface areas, and thus they will have commercial possibilities in a range of high tec ....New Types of Biomimetic Nanostructured Adhesives. Adhesives are one of the main ways in which we join materials, and have many advantages over other methods of joining. In this work we will make a new class of adhesive using nanotechnology that attempts to copy the very fine-haired feet of animals such as geckos who can stick to almost any surface, under most conditions. We will make these adhesives over large surface areas, and thus they will have commercial possibilities in a range of high technology industries, as well as in harsh environments. Because we will be able to manipulate the structure and observe property changes, it should also give us a greater insight into the adhesion mechanisms used by many small animals and bugs.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560981
Funder
Australian Research Council
Funding Amount
$160,940.00
Summary
Confronting the Challenges in Modern Spectroscopy of Polymers. Polymers and nanocomposites are increasingly being used in new, high value applications as diverse as medicine, structural engineering, optics and electronics. In order to control and understand polymer performance, a detailed knowledge of the chemical structure at all stages in their lifecycle is required - in the liquid, rubber and solid states and during degradation. This application seeks to establish a coordinated Polymer Spectr ....Confronting the Challenges in Modern Spectroscopy of Polymers. Polymers and nanocomposites are increasingly being used in new, high value applications as diverse as medicine, structural engineering, optics and electronics. In order to control and understand polymer performance, a detailed knowledge of the chemical structure at all stages in their lifecycle is required - in the liquid, rubber and solid states and during degradation. This application seeks to establish a coordinated Polymer Spectroscopy Network using new forms of infrared and NMR spectroscopy to probe samples (usually of an non-planar geometry) in a range of configurations. These will be used simultaneously with other techniques such as rheology or thermogravimetry, and will produce capabilities unique in Australia.Read moreRead less
The development of super-toughened epoxies using a novel nanomaterial. Epoxy resins are widely used as structural adhesives and coatings in engineering structures. This project will address the problem of the intrinsic brittleness of epoxy by making it significantly tougher with superior performance and cost-effectiveness. Our technology for producing super-toughened epoxy will lead to a wide range of applications for new and existing products in the construction, automotive, aerospace, adhesive ....The development of super-toughened epoxies using a novel nanomaterial. Epoxy resins are widely used as structural adhesives and coatings in engineering structures. This project will address the problem of the intrinsic brittleness of epoxy by making it significantly tougher with superior performance and cost-effectiveness. Our technology for producing super-toughened epoxy will lead to a wide range of applications for new and existing products in the construction, automotive, aerospace, adhesive and microelectronics industries.Read moreRead less
Hermetic bonding of biomedical polymers for cardiac-assist devices. The use of a polymeric ventricular assist device will bring a much better quality of life to patients with end-stage heart failure. The project will address the remaining challenge, the creation of a hermetic polymer seal, enabling the development of a small, light and highly efficient heart pump. The project has the potential to improve the lives of many Australians as our demographic profile shifts towards older people. Patie ....Hermetic bonding of biomedical polymers for cardiac-assist devices. The use of a polymeric ventricular assist device will bring a much better quality of life to patients with end-stage heart failure. The project will address the remaining challenge, the creation of a hermetic polymer seal, enabling the development of a small, light and highly efficient heart pump. The project has the potential to improve the lives of many Australians as our demographic profile shifts towards older people. Patients with advanced heart failure will live longer, with a higher quality of life. It will assist heart failure sufferers to remain productive members of our community, because many people who use the device will be fit to return to work.Read moreRead less