Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100092
Funder
Australian Research Council
Funding Amount
$270,000.00
Summary
A co-thermal evaporation system for the production of chalcogenide thin films for photonics. This project will provide important infrastructure underpinning the production of novel photonic materials that will allow the fabrication of devices that will support advances in the optical internet; in sensing of dangerous or illicit materials; in defense science and in astro-physics. The production of high performance photonic materials for such applications can lead to new commercial ventures in Aus ....A co-thermal evaporation system for the production of chalcogenide thin films for photonics. This project will provide important infrastructure underpinning the production of novel photonic materials that will allow the fabrication of devices that will support advances in the optical internet; in sensing of dangerous or illicit materials; in defense science and in astro-physics. The production of high performance photonic materials for such applications can lead to new commercial ventures in Australia. Read moreRead less
New Paradigm for Materials Technology for AZS Glassmaking Refractories. The project aims to enable the inexpensive manufacture of widely used refractories with reduced energy and materials costs and improved thermal and mechanical properties. The project plans to exploit technology patented by the researchers to fabricate percolated mullite materials from fly ash by sintering, yielding properties equivalent or superior to those of fuse-cast alumina-zirconia-silica refractories (AZS). AZS is expe ....New Paradigm for Materials Technology for AZS Glassmaking Refractories. The project aims to enable the inexpensive manufacture of widely used refractories with reduced energy and materials costs and improved thermal and mechanical properties. The project plans to exploit technology patented by the researchers to fabricate percolated mullite materials from fly ash by sintering, yielding properties equivalent or superior to those of fuse-cast alumina-zirconia-silica refractories (AZS). AZS is expensive since it requires melting by fuse-casting and high-purity raw materials. The project aims to eliminate both requirements by sintering and use of waste fly ash, giving microstructures of dense, direct-bonded, percolated, mullite, single crystals, with residual impurities in the interstices that do not affect creep.Read moreRead less