Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100123
Funder
Australian Research Council
Funding Amount
$190,000.00
Summary
Quench and deformation dilatometer for studying phase transformations. Quench and deformation dilatometer for studying phase transformations: The quenching and deformation dilatometer is a high precision thermal analysis tool used to measure phase transformations in situ. This technique can make time-resolved measurements of transformations under the extreme conditions of heating, cooling and deformation that are experienced during industrial processing. This instrument will be the only one in A ....Quench and deformation dilatometer for studying phase transformations. Quench and deformation dilatometer for studying phase transformations: The quenching and deformation dilatometer is a high precision thermal analysis tool used to measure phase transformations in situ. This technique can make time-resolved measurements of transformations under the extreme conditions of heating, cooling and deformation that are experienced during industrial processing. This instrument will be the only one in Australia capable of temperature changes above 2000 degrees Celsius and will also be the only one equipped with a cryogenic module. The instrument is intended to be used to characterise new processing technologies and new alloy systems such as advanced high strength steels, age hardenable magnesium, high entropy alloys, and cluster hardening aluminium alloys.Read moreRead less
Metal folding fundamentals to shape new corrugated building products . FormFlow has developed a ground-breaking forming process enabling the use of corrugated iron as a structural element. This is a step change for Australia`s steel and building industry and will provide a direct benefit to fireproofing homes. Up scaling of this new technology poses significant challenges due to the lack of understanding in the new forming process and the effect of pre-processing on the incoming material. Fundam ....Metal folding fundamentals to shape new corrugated building products . FormFlow has developed a ground-breaking forming process enabling the use of corrugated iron as a structural element. This is a step change for Australia`s steel and building industry and will provide a direct benefit to fireproofing homes. Up scaling of this new technology poses significant challenges due to the lack of understanding in the new forming process and the effect of pre-processing on the incoming material. Fundamental knowledge of material behaviour will be developed with advanced models that account for the unique process deformation conditions. The intended outcome includes computer software for process design and new concepts for part shape control to improve product quality, repeatability and enable high volume manufacture.Read moreRead less
Flexible roll forming of advanced high strength steel sheet . This project will develop light weight automotive components to assist fuel economy and crash worthiness through flexible roll forming. This process has the potential to form complex shapes from very high strength steels in a very cost effective and efficient small scale operation, highly suited to Australian manufacturing.
Micro-roll forming of metal bipolar plates for fuel cells. This project aims to develop a novel forming technology for the production of metal bipolar plates for fuel cells: micro-roll forming. This poses a number of challenges particularly due to the low material thickness to be formed. These challenges include the development of advanced models that account for size effects in the process and represent the unique deformation conditions and material fracture behaviour. The project plans to prod ....Micro-roll forming of metal bipolar plates for fuel cells. This project aims to develop a novel forming technology for the production of metal bipolar plates for fuel cells: micro-roll forming. This poses a number of challenges particularly due to the low material thickness to be formed. These challenges include the development of advanced models that account for size effects in the process and represent the unique deformation conditions and material fracture behaviour. The project plans to produce prototypes and to compare part complexity with that achievable by conventional micro stamping. The intended outcome of the project includes advanced computer models for process design and the new micro-forming technology validated through extensive laboratory and plant trials.Read moreRead less