Developing a new technology: advanced surface hardening and grinding in a single operation. Our advances will give Australian manufacturing industry first access to a significant technological advance in precision grinding, a critical machining process. This will improve our international competitiveness, through major cost reductions by simplifying the manufacturing procedure and by eliminating the use of toxic coolants. The technology will provide significant opportunities for further Australi ....Developing a new technology: advanced surface hardening and grinding in a single operation. Our advances will give Australian manufacturing industry first access to a significant technological advance in precision grinding, a critical machining process. This will improve our international competitiveness, through major cost reductions by simplifying the manufacturing procedure and by eliminating the use of toxic coolants. The technology will provide significant opportunities for further Australian research in precision machining by creating a foundation for extending the technology to more complex manufacturing processes.Read moreRead less
High precision material processing using ultrashort laser pulses at MHz repetition rates. The continual miniaturisation of mechanical and electronic components for biomedical, aerospace and industrial products is driving the demand for advanced fabrication techniques. Femtosecond laser micromachining in particular is emerging as a critical manufacturing process for these components and other new and unprecedented applications.
The project will build up strong links between the Photonics Institu ....High precision material processing using ultrashort laser pulses at MHz repetition rates. The continual miniaturisation of mechanical and electronic components for biomedical, aerospace and industrial products is driving the demand for advanced fabrication techniques. Femtosecond laser micromachining in particular is emerging as a critical manufacturing process for these components and other new and unprecedented applications.
The project will build up strong links between the Photonics Institute in Vienna, Austria, which is noted for their achievements in the development of femtosecond light sources, and the CLA, which has an excellent reputation for its expert knowledge in laser material processing. It is therefore believed to be beneficial for research in both countries.
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Design of tuneable microstructures for additive manufacturing. The project intends to develop methods to tune the microstructure of materials in additive manufacturing so that components can be manufactured with maximum productivity and properties. Additive manufacturing is leading the mass customisation of manufacturing. Designed tunable microstructures enable structure and properties to be tailored for specific applications. One of the greatest challenges, however, is how to control the scale ....Design of tuneable microstructures for additive manufacturing. The project intends to develop methods to tune the microstructure of materials in additive manufacturing so that components can be manufactured with maximum productivity and properties. Additive manufacturing is leading the mass customisation of manufacturing. Designed tunable microstructures enable structure and properties to be tailored for specific applications. One of the greatest challenges, however, is how to control the scale and morphology of the microstructure. This project aims to use the interdependence model of grain refinement to control and design grain sizes. The project first plans to investigate the near-rapid solidification conditions in aluminium alloys. It then plans to re-design the harder-to-manufacture titanium alloys to improve grain size control.Read moreRead less