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Fluid physics of cold gas-dynamic spray process. Cold gas-dynamic spray has the potential to revitalize and revolutionize the Australian manufacturing sector and economy. It is a technologically advanced flexible free-forming process with potential applications in the aviation, automotive, naval and bio-medical sectors. It allows for the design of functional surfaces from the nano-scale to the macro-scale that can be manufactured by spraying material coatings of arbitrary thickness and density o ....Fluid physics of cold gas-dynamic spray process. Cold gas-dynamic spray has the potential to revitalize and revolutionize the Australian manufacturing sector and economy. It is a technologically advanced flexible free-forming process with potential applications in the aviation, automotive, naval and bio-medical sectors. It allows for the design of functional surfaces from the nano-scale to the macro-scale that can be manufactured by spraying material coatings of arbitrary thickness and density on a substrate. The process of the spray particle delivery is crucial and not understood. This research will investigate the fluid physics and spray particle physics to gain the essential understanding necessary to make this process energy efficient and extend its range of application.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561035
Funder
Australian Research Council
Funding Amount
$176,890.00
Summary
A high-speed PIV facility for kinematic investigation of rapid transient and pulsatile fluid flows. The unprecedented frame rate of high-speed PIV allows the detail investigation of turbulent and unsteady flows, hitherto inaccessible to researchers other than by measurement at a single point. The proposed equipment will allow researchers to resolve a wide range of problems in fluid mechanics covering bio-medical flows, drug delivery, vehicle and urban aerodynamics, urban hydrodynamics, combusti ....A high-speed PIV facility for kinematic investigation of rapid transient and pulsatile fluid flows. The unprecedented frame rate of high-speed PIV allows the detail investigation of turbulent and unsteady flows, hitherto inaccessible to researchers other than by measurement at a single point. The proposed equipment will allow researchers to resolve a wide range of problems in fluid mechanics covering bio-medical flows, drug delivery, vehicle and urban aerodynamics, urban hydrodynamics, combustion, bubble-particle interactions and other industrial flow problems. The results of this work will place Australia in the forefront of research in transient fluid mechanics allowing researchers to develop a predictive capacity for such flows.Read moreRead less