Heat conduction characterisation of buried insulation layers in silicon-on-insulator systems. This project aims to establish a new technique for the accurate characterisation of thermal conduction in buried insulation layers in advanced silicon-on-insulator (SOI) systems. The success of the project will enable the Australian semiconductor industry to develop high performance SOI systems.
Discovery Early Career Researcher Award - Grant ID: DE120102664
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
A micro-compression study of aluminium alloys: establishing the nanoscale mechanisms of precipitate-induced strengthening to achieve stronger alloys. This project will study the strengthening mechanisms of aluminium alloys by directly observing how dislocations interact with solute nanostructures. The research will advance our knowledge of dislocation dynamics in precipitation-strengthening alloys, and provide a quantitative method for controlling those nanostructures to achieve higher strength ....A micro-compression study of aluminium alloys: establishing the nanoscale mechanisms of precipitate-induced strengthening to achieve stronger alloys. This project will study the strengthening mechanisms of aluminium alloys by directly observing how dislocations interact with solute nanostructures. The research will advance our knowledge of dislocation dynamics in precipitation-strengthening alloys, and provide a quantitative method for controlling those nanostructures to achieve higher strength alloys.Read moreRead less