Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775715
Funder
Australian Research Council
Funding Amount
$370,000.00
Summary
Advanced facility for ultra high-speed visualisation and real-time diagnostics of particles and droplets. The proposed research facility will offer new tools for advanced manufacturing in Melbourne and provide support for research at the leading universities involved in engineering and science. Testing and characterization equipment can support activities by researchers across different faculties including those of Federation fellows working in the area of nanotechnology and advanced materials. ....Advanced facility for ultra high-speed visualisation and real-time diagnostics of particles and droplets. The proposed research facility will offer new tools for advanced manufacturing in Melbourne and provide support for research at the leading universities involved in engineering and science. Testing and characterization equipment can support activities by researchers across different faculties including those of Federation fellows working in the area of nanotechnology and advanced materials. It fills a desperate need in a niche area. The research is directly aligned to the National Research Priority of Frontier Technologies for Building and Transforming Australian Industries: Advanced Materials.Read moreRead less
The durability of geopolymeric products as a function of the nanostructured gel phase. A comprehensive physical, chemical and microscopic analysis will be conducted on a series of geopolymers and Ordinary Portland Cement samples manufactured from 1964 to 2001, with a focus on the characterisation of the nanostructured gel phase. The outcomes include (1) revealing the relationship between the nanostructured gel phase and durability; (2) the discovery of reaction mechanisms in geopolymerisation an ....The durability of geopolymeric products as a function of the nanostructured gel phase. A comprehensive physical, chemical and microscopic analysis will be conducted on a series of geopolymers and Ordinary Portland Cement samples manufactured from 1964 to 2001, with a focus on the characterisation of the nanostructured gel phase. The outcomes include (1) revealing the relationship between the nanostructured gel phase and durability; (2) the discovery of reaction mechanisms in geopolymerisation and formation of OPC; (3) computer modelling of nano-scale assemblies of atoms and molecules that will give desirable properties and durability, and (4) a tailored synthesis of geopolymers with vastly improved mechanical performance and acid, fire and bacterial resistance. This scientific understanding of long term durability will greatly enhance commercial acceptance of geopolymers.Read moreRead less