Nanoarchitectured anti-corrosion coatings for zinc-plated steel. Zinc-plated steel is widely used in buildings, households and vehicles, but the long-term performance is limited due to corrosion resulting from exposure to high humidity or alkaline conditions. Currently, available chromium coatings are toxic, while polymeric coatings lack durability. This project aims to use nanotechnology to develop highly effective, multifunctional anti-corrosive coatings in which long-term protection is achiev ....Nanoarchitectured anti-corrosion coatings for zinc-plated steel. Zinc-plated steel is widely used in buildings, households and vehicles, but the long-term performance is limited due to corrosion resulting from exposure to high humidity or alkaline conditions. Currently, available chromium coatings are toxic, while polymeric coatings lack durability. This project aims to use nanotechnology to develop highly effective, multifunctional anti-corrosive coatings in which long-term protection is achieved by controlling the wettability and self-healing properties. The project is excepted to generate new knowledge in coating materials that limit corrosion and address environmental problems. This advanced manufacturing technology should be of high-value benefit to manufacturers and consumers of zinc-plated steel.Read moreRead less
Development of new lead-free solders for use on aluminium conductors in photovoltaic systems and electric vehicles. This project will tackle a longstanding environmental issue within electrical and electronic industries through developing lead-free solder alloys for use on relatively low cost aluminium substrates. As aluminium is a very light metal, this research will have significant impact on the development of photovoltaic devices and electric vehicles. The developed technology will also prom ....Development of new lead-free solders for use on aluminium conductors in photovoltaic systems and electric vehicles. This project will tackle a longstanding environmental issue within electrical and electronic industries through developing lead-free solder alloys for use on relatively low cost aluminium substrates. As aluminium is a very light metal, this research will have significant impact on the development of photovoltaic devices and electric vehicles. The developed technology will also promote the use of aluminium alloys and bring direct benefit to Australian mining and light metal industries.Read moreRead less