Cleaning of tough paints on advanced composites using laser technologies. This project researches fundamental knowledge and algorithms to underpin the deployment of a novel ablation technology using pulsed lasers to remove paints, in particular tough paints, from surfaces of advanced composite structures, e.g. airframes and turbine blades. It establishes thermal mechanical models to describe ablation mechanisms of pulsed laser removal of the paint using both IR and UV bands. Optimal processing p ....Cleaning of tough paints on advanced composites using laser technologies. This project researches fundamental knowledge and algorithms to underpin the deployment of a novel ablation technology using pulsed lasers to remove paints, in particular tough paints, from surfaces of advanced composite structures, e.g. airframes and turbine blades. It establishes thermal mechanical models to describe ablation mechanisms of pulsed laser removal of the paint using both IR and UV bands. Optimal processing protocols to clean paints with different properties, without damaging the underlying composites, will be determined and demonstrated. It meets a cleaning technology need for this paint-on-composites material system to support retrofitting and re-manufacturing in industry. These are crucial industry requirements. Read moreRead less
Exploiting deep sub-surface temperature-induced phase-transformations for an improved approach to semiconductor laser-dicing. This project aims to explore sub-surface laser-induced phase transformations in semiconductors and to exploit this novel method for ultra-fine laser cutting of semiconductor wafers without debris. The outcomes will be understanding new temperature-induced material modifications and innovative technology development relevant for the semiconductor industry.
Development of far Infrared multispectral thermal image sensors . This project aims to develop a technology that will bypass limitations of existing thermal-image sensor pixels to produce multi-spectral imaging of objects with specificity, clarity and sharpness in a wide range of far infrared wavelength regions. This technology has applications in remote sensing, pest control, and precision agriculture. The project is based on an existing collaboration between The University of Melbourne and t ....Development of far Infrared multispectral thermal image sensors . This project aims to develop a technology that will bypass limitations of existing thermal-image sensor pixels to produce multi-spectral imaging of objects with specificity, clarity and sharpness in a wide range of far infrared wavelength regions. This technology has applications in remote sensing, pest control, and precision agriculture. The project is based on an existing collaboration between The University of Melbourne and the start-up company Digital Falcon. Digital Falcon provides extensive industry service in developing custom image analysis algorithms and post processing to visualisation tools. The University of Melbourne provides research expertise in image sensor pixel technology and sensor electronics.Read moreRead less