Inorganic membrane percrystallisation in hydrometallurgy. This project aims is to develop the scientific and engineering basis for a new Australian inorganic membrane technology for the crystallisation of metal compounds. Inorganic membrane percrystallisation is a recent breakthrough promising improved productivity, energy savings and the ability to tailor particle properties. This project will develop a mechanistic model encompassing solution transport phenomena, crystal nucleation-growth-agglo ....Inorganic membrane percrystallisation in hydrometallurgy. This project aims is to develop the scientific and engineering basis for a new Australian inorganic membrane technology for the crystallisation of metal compounds. Inorganic membrane percrystallisation is a recent breakthrough promising improved productivity, energy savings and the ability to tailor particle properties. This project will develop a mechanistic model encompassing solution transport phenomena, crystal nucleation-growth-agglomeration and engineering process parameters affecting single and binary salt systems. This model will provide a basis for technology development benefiting Australia, such as the improvement of the production of nickel sulphate for the growing battery materials market.Read moreRead less
Innovative aluminium extrusion: increased productivity through simulation. This project seeks to develop new approaches to increase the productivity and competitiveness of the Australian aluminium extrusion industry. The project will use customised simulation software to optimise the design of extrusion dies, thereby substantially reducing the time and cost of developing new extrusion dies. It intends to similarly optimise the processing conditions for high quality extrusion, further contributin ....Innovative aluminium extrusion: increased productivity through simulation. This project seeks to develop new approaches to increase the productivity and competitiveness of the Australian aluminium extrusion industry. The project will use customised simulation software to optimise the design of extrusion dies, thereby substantially reducing the time and cost of developing new extrusion dies. It intends to similarly optimise the processing conditions for high quality extrusion, further contributing to cost reduction. Anticipated project outcomes include fundamental models of material deformation behaviour and damage accumulation that, through computer simulation, will increase die life and reduce scrap.Read moreRead less