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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668504
Funder
Australian Research Council
Funding Amount
$648,000.00
Summary
Real-time Observation of Thermal and Mechanical Response at the Nano Level. The requested facility is an electron microscope dedicated to observing, in real-time, the nano-scale mechanisms that control the response of materials to stress and temperature. The insight provided by this facility is needed for the development of the next generation of materials, particularly "nano" materials based on particles, fibres, whiskers, nano-tubes, thin films and other micro-formed parts. These materials wil ....Real-time Observation of Thermal and Mechanical Response at the Nano Level. The requested facility is an electron microscope dedicated to observing, in real-time, the nano-scale mechanisms that control the response of materials to stress and temperature. The insight provided by this facility is needed for the development of the next generation of materials, particularly "nano" materials based on particles, fibres, whiskers, nano-tubes, thin films and other micro-formed parts. These materials will underpin the next generation of technological advances and new applications such as nano-machines. The facility will also be used to train the future scientists who will develop these exciting new technologies.Read moreRead less
Scalable Graphene Enabled Smart Composites. The need for lightweight composite materials is increasing exponentially in the context of renewable energy, e-mobility and related emission reductions. This project aims to develop novel approaches to integrate graphene nanomaterials into structural composites, enabling damage sensing and structural health monitoring functionalities. The outcome of this project will be a new class of smart composites that will address the critical need for improving s ....Scalable Graphene Enabled Smart Composites. The need for lightweight composite materials is increasing exponentially in the context of renewable energy, e-mobility and related emission reductions. This project aims to develop novel approaches to integrate graphene nanomaterials into structural composites, enabling damage sensing and structural health monitoring functionalities. The outcome of this project will be a new class of smart composites that will address the critical need for improving structural integrity, safety and reliability, while significantly reducing lifecycle costs. This should provide significant benefits in creating confidence to increase investment in Australia for manufacturing graphene enabled smart materials and technologies with enormous export potential.Read moreRead less