Processing - Structure Relationships in Thermal Spray Coatings. Researchers in New Zealand have developed novel thermal spray processing treatments which can be used to enahnce the wear, oxidation and corrosion resisitance of materials. However, characterization of the coatings using electron microscopy is essential to understand the relationship between processing conditions and properties. The aim of this project is to draw together specialist expertise and equipment that allows integration ....Processing - Structure Relationships in Thermal Spray Coatings. Researchers in New Zealand have developed novel thermal spray processing treatments which can be used to enahnce the wear, oxidation and corrosion resisitance of materials. However, characterization of the coatings using electron microscopy is essential to understand the relationship between processing conditions and properties. The aim of this project is to draw together specialist expertise and equipment that allows integration of microscopy into the development of these films. Australian researchers will gain access to specialized preparation and testing facilities in New Zealand, whilst researchers from New Zealand will perform structural analysis of these films in Australia.Read moreRead less
Interfacial Structures in Thermal Spray Coatings. The use of coatings on the surfaces of components provides high levels of resistance to mechanical damage, corrosion, oxidation or thermal degradation. As a result, coated components exhibit increased lifetimes and reliability. However, the durability of such components is still crucially limited by the quality of the coating. An improved understanding of the bonding mechanisms that occur during the deposition of such coatings, prepared through t ....Interfacial Structures in Thermal Spray Coatings. The use of coatings on the surfaces of components provides high levels of resistance to mechanical damage, corrosion, oxidation or thermal degradation. As a result, coated components exhibit increased lifetimes and reliability. However, the durability of such components is still crucially limited by the quality of the coating. An improved understanding of the bonding mechanisms that occur during the deposition of such coatings, prepared through thermal spray methods, will provide improvements in coating structure and thus, component performance and lifetime. This will benefit a wide range of manufacturing industries that use such coatings. Read moreRead less
Evolution of Contact Damage in Layer Structures. Brittle layer structures (eg brittle coating on ceramic substrate) can be much more damage tolerant than their constituent material components - cracks tend to remain contained within the coating. Very little is known about the factors that control this behaviour. This project will exploit unique local expertise in modelling damage evolution to fill a niche in a large study being carried out at the National Institute of Standards (NIST) in the U ....Evolution of Contact Damage in Layer Structures. Brittle layer structures (eg brittle coating on ceramic substrate) can be much more damage tolerant than their constituent material components - cracks tend to remain contained within the coating. Very little is known about the factors that control this behaviour. This project will exploit unique local expertise in modelling damage evolution to fill a niche in a large study being carried out at the National Institute of Standards (NIST) in the U.S.A. An understanding of the factors that maximise the containment of cracks is essential to the design and development of the next generation of advanced layer composites for many biomechanical and other engineering applications.Read moreRead less
Designs of Periodic Microstructure Materials with Prescribed Multiphysical Properties. The evolutionary structural optimization (ESO) is an Australian initiative, which has made a significant impact on modern structural optimization. In advanced materials areas, Australia has well-established infrastructure and world-class expertise. Exploitation of ESO to advanced materials design will be of "exclusive significance" to Australia. More importantly, the new material design technology will present ....Designs of Periodic Microstructure Materials with Prescribed Multiphysical Properties. The evolutionary structural optimization (ESO) is an Australian initiative, which has made a significant impact on modern structural optimization. In advanced materials areas, Australia has well-established infrastructure and world-class expertise. Exploitation of ESO to advanced materials design will be of "exclusive significance" to Australia. More importantly, the new material design technology will present to Australia an opportunity to lead in this rapidly-growing area, which will definitely underpin Australia's standing as a major contributor and developer in a global materials market. It is expected that fresh classes of futuristic materials can be developed in a cost-effective fashion and add great economic benefits to Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561186
Funder
Australian Research Council
Funding Amount
$447,967.00
Summary
Surface Mechanical Property Analysis Facility. The aim of this proposal is to develop a facility for the mechanical properties analysis of material surfaces. The facility will enable an understanding of the performance of materials in a wide range of contact and abrasion situations and in very small volumes such as thin films and components of multiphase composites. The unique features of the proposed facility are that it is capable of analysis down to exceptionally low sub-micron length scale, ....Surface Mechanical Property Analysis Facility. The aim of this proposal is to develop a facility for the mechanical properties analysis of material surfaces. The facility will enable an understanding of the performance of materials in a wide range of contact and abrasion situations and in very small volumes such as thin films and components of multiphase composites. The unique features of the proposed facility are that it is capable of analysis down to exceptionally low sub-micron length scale, under multiple forms of loading and over a range of temperatures. It is applicable to the design of abrasion resistant materials, characterisation of very thin surface films for applications such as microelectronics and biomedical implants and design of advanced composites.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346882
Funder
Australian Research Council
Funding Amount
$296,000.00
Summary
A Micro-CT facility for non-destructive 3D X-ray microscopy of opaque materials. This project will establish a Micro-CT facility for non-destructive 3D X-ray microscopy of the internal structure of materials. The facility will support research from a broad spectrum of disciplines and extend regional microscopy and microanalysis capabilities. With a resolution of 1.8µm this instrument will provide 3D images with virtually no sample preparation. The range of materials that this applies to includes ....A Micro-CT facility for non-destructive 3D X-ray microscopy of opaque materials. This project will establish a Micro-CT facility for non-destructive 3D X-ray microscopy of the internal structure of materials. The facility will support research from a broad spectrum of disciplines and extend regional microscopy and microanalysis capabilities. With a resolution of 1.8µm this instrument will provide 3D images with virtually no sample preparation. The range of materials that this applies to includes minerals, wood, biomaterials, polymers, composites, archaeological ceramics and mummified tissue, and biological materials such as bone, teeth and coral. This facilitates research which had been considered too difficult because of the sample preparation needed to examine internal structure.
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