UCF-UNSW Development of Sol gel Derived Non-agglomerated Cerium Oxide Nanoparticles. The research initiative, recognized by NSF, will attempt to produce first time, monosized nanoparticles of ceria for potential thermal barrier coating application. The project combines synthesis and surface science expertise of UCF investigator with characterization expertise of the UNSW CI to lead the collaboration into the forefront nano-ceria synthesis. Upon return to Australia the UNSW CI will start an ex ....UCF-UNSW Development of Sol gel Derived Non-agglomerated Cerium Oxide Nanoparticles. The research initiative, recognized by NSF, will attempt to produce first time, monosized nanoparticles of ceria for potential thermal barrier coating application. The project combines synthesis and surface science expertise of UCF investigator with characterization expertise of the UNSW CI to lead the collaboration into the forefront nano-ceria synthesis. Upon return to Australia the UNSW CI will start an experimental program at UNSW on sol-gel synthesis of ceria and other monosized oxide nanoparticles for the first time.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560705
Funder
Australian Research Council
Funding Amount
$825,000.00
Summary
Advanced Deformation Simulation Laboratory. For Australia to maintain its position as a world leader in the science of metals processing it must have the capability for state-of-the-art physical simulation. The present proposal is for the purchase and installation of two leading edge simulation tools: a high rate/short inter-pass hot deformation simulator and a hot equal channel angular extrusion press. Advanced hot deformation simulation is required for the development and optimisation of "fast ....Advanced Deformation Simulation Laboratory. For Australia to maintain its position as a world leader in the science of metals processing it must have the capability for state-of-the-art physical simulation. The present proposal is for the purchase and installation of two leading edge simulation tools: a high rate/short inter-pass hot deformation simulator and a hot equal channel angular extrusion press. Advanced hot deformation simulation is required for the development and optimisation of "fast" industrial processes and for understanding the complex microstructural reactions associated with them. High temperature extrusion is required for the development of ultra-fine and nano-grained light metals.Read moreRead less
Studies on Nanocomposite Coatings: Processing, Characterisation and Properties. Superhard nanocomposite coatings are relatively new materials that have found many applications in the manufacturing industries. The main objectives of this project are: (a)development and optimisation of fabrication techniques for a range of novel superhard nano-composites; (b) fundamental understanding of the relationships between residual stress, microstructure and composition; and (c) evaluations of fracture-mech ....Studies on Nanocomposite Coatings: Processing, Characterisation and Properties. Superhard nanocomposite coatings are relatively new materials that have found many applications in the manufacturing industries. The main objectives of this project are: (a)development and optimisation of fabrication techniques for a range of novel superhard nano-composites; (b) fundamental understanding of the relationships between residual stress, microstructure and composition; and (c) evaluations of fracture-mechanical properties including wear-resistance. Major research outcomes are improved basic knowledge of these novel nanocomposite coatings leading to optimal processing of superhard nano-materials.Read moreRead less
An investigation of growth processes, structure and properties of biogenically synthesised gold nanoparticles. Nanoparticles can have unique and interesting properties such as optical activity and redox (electronic) behaviour that can be utilised in a number of applications such as drug delivery and cancer hyperthermia treatments, coatings, electronic devices and sensors. The main aims of this research program are to produce novel nanoparticles using an innovative method which uses biological sp ....An investigation of growth processes, structure and properties of biogenically synthesised gold nanoparticles. Nanoparticles can have unique and interesting properties such as optical activity and redox (electronic) behaviour that can be utilised in a number of applications such as drug delivery and cancer hyperthermia treatments, coatings, electronic devices and sensors. The main aims of this research program are to produce novel nanoparticles using an innovative method which uses biological species such as fungi and plant extracts, and to study the growth mechanisms, structure and properties of these nanoparticles. These studies could lead to the discovery of novel nanoparticles with applications in the fields mentioned above. This project also aims to train/educate young Australian graduates in the growing area of advanced materials.Read moreRead less
Fundamental roles of nano-particles in composite-fibre/epoxy-polymer (CF/EP) composites. There is a significant demand for value-added, innovative epoxy resins for various applications. Australia has a well established aerospace industry and world-leading expertise in synthesising and processing inorganic nano-particles. The outputs of this project will be beneficial to both material manufacturers and design engineers. Understanding the fundamental roles of functional nano-fillers will stimulate ....Fundamental roles of nano-particles in composite-fibre/epoxy-polymer (CF/EP) composites. There is a significant demand for value-added, innovative epoxy resins for various applications. Australia has a well established aerospace industry and world-leading expertise in synthesising and processing inorganic nano-particles. The outputs of this project will be beneficial to both material manufacturers and design engineers. Understanding the fundamental roles of functional nano-fillers will stimulate scientific and technological interests for future research and development of multifunctional engineering materials with improved properties and structures designed in the nano-scale. The project will give Australian researchers a technological edge over their competitors in materials science and engineering.Read moreRead less
Design in Nanostructured Materials - Formation and Stability of Nanostructure in Light Alloys and Light Metal Hybrids. Under its Light Metals Action Agenda, Australia recognizes a strategic interest in the production, processing and applications of the light metals, and a growth in global markets for light metals technology. Light metals research is a designated national priority, and this program will advance an established international leadership in the design and downstream processing of the ....Design in Nanostructured Materials - Formation and Stability of Nanostructure in Light Alloys and Light Metal Hybrids. Under its Light Metals Action Agenda, Australia recognizes a strategic interest in the production, processing and applications of the light metals, and a growth in global markets for light metals technology. Light metals research is a designated national priority, and this program will advance an established international leadership in the design and downstream processing of the light alloys. It will also provide leadership in a new national research activity in light metal hybrid structures, targeted at innovation in materials design and the expansion of markets for the light metals. It will underpin major developments in the light metals industry nationally and globally, and extend linkages with major research centres internationally.Read moreRead less
States of Aggregation - Clustering, Segregation, Nucleation and Nanostructure. High strength light alloys are nanostructured materials, deriving their mechanical properties from nanoscale dispersions of strengthening precipitate phases controlled by alloy composition and thermomechanical processing. Atom-probe field-ion microscopy and high-resolution electron microscopy will be combined to study the aggregation of solute atoms that precedes formation of the precipitate phases. Experimental st ....States of Aggregation - Clustering, Segregation, Nucleation and Nanostructure. High strength light alloys are nanostructured materials, deriving their mechanical properties from nanoscale dispersions of strengthening precipitate phases controlled by alloy composition and thermomechanical processing. Atom-probe field-ion microscopy and high-resolution electron microscopy will be combined to study the aggregation of solute atoms that precedes formation of the precipitate phases. Experimental studies at high spatial resolution will be complemented by elastic strain energy calculations and first-principles modelling of the aggregation behaviour, to define its role in controlling precipitation processes and thus properties. The work will provide a basis for improved alloy design and a platform for computer-aided design of high-performance alloys.Read moreRead less
Practical Hydrogen Storage for Fuel Cells Electrical Vehicles by Confined Ammonia Borane System. Practical hydrogen storage is critical to make the hydrogen economy a reality, in particular for fuel cells electrical vehicles (FCVE). However, currently there is no approach to satisfy the requirements of hydrogen storage for FCVE, e.g. fulfill the US Department of Energy target for practical hydrogen storage. This project is proposed to develop a new strategy to achieve the goal of practical hyd ....Practical Hydrogen Storage for Fuel Cells Electrical Vehicles by Confined Ammonia Borane System. Practical hydrogen storage is critical to make the hydrogen economy a reality, in particular for fuel cells electrical vehicles (FCVE). However, currently there is no approach to satisfy the requirements of hydrogen storage for FCVE, e.g. fulfill the US Department of Energy target for practical hydrogen storage. This project is proposed to develop a new strategy to achieve the goal of practical hydrogen storage which, if successful, will make FCVE possible in Australia in the near future. It will also be beneficial for reducing the dependence on exported oil and possibly solving critical environmental issues, and thus benefits the Australian economy.Read moreRead less
Quantitative Atom Probe Tomography for Nanostructural Analysis of Materials. The ultimate in microscopy would involve the ability to image and chemically identify every atom or molecule in a specimen. This project involves the development of reconstruction and analysis methodologies for more accurately determining relative atomic positions in atom probe tomography. We will develop a comprehensive, platform-independent approach to enable quantitative atom probe tomography for the Australian resea ....Quantitative Atom Probe Tomography for Nanostructural Analysis of Materials. The ultimate in microscopy would involve the ability to image and chemically identify every atom or molecule in a specimen. This project involves the development of reconstruction and analysis methodologies for more accurately determining relative atomic positions in atom probe tomography. We will develop a comprehensive, platform-independent approach to enable quantitative atom probe tomography for the Australian research community. This development will be used to address current questions on the influence of the chemistry, crystallography, type and dispersion of sub-critical atomic clusters and supra-critical nanoscale precipitates on the strengthening mechanisms in light alloys used for structural applications in transport.Read moreRead less
Development of a New Type of Large-Area Robust Superhydrophobic Surfaces (MWN). Electrochemical manipulation will be used to produce robust metal surfaces of controlled roughness and characteristic size of the surface features in the 10-1000 nanometre range. Subsequent surface modification (e.g. self-assembled monolayers, silane chemisorption, plasma polymer deposition) will render these surfaces superhydrophobic. The surfaces will have highly depressed adhesion properties and hence a significan ....Development of a New Type of Large-Area Robust Superhydrophobic Surfaces (MWN). Electrochemical manipulation will be used to produce robust metal surfaces of controlled roughness and characteristic size of the surface features in the 10-1000 nanometre range. Subsequent surface modification (e.g. self-assembled monolayers, silane chemisorption, plasma polymer deposition) will render these surfaces superhydrophobic. The surfaces will have highly depressed adhesion properties and hence a significantly improved chemical resistance and corrosion stability. A viable procedure for the making of polymer imprints from the metal surfaces will be developed. This will form the basis of a new method for cheap fabrication of various superhydrophobic surfaces with large areas and specific functionality.Read moreRead less