Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100094
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Selective laser melting - an advanced manufacturing and physical modelling technology for the digital age. Selective laser melting is a new manufacturing technology that creates parts layer by layer directly from a computer model, eliminating the need for tooling or machining. This technology will be applied to a diverse range of research areas from producing the next generation of medical implants and devices to improving our understanding of geo-materials.
Industrial Transformation Training Centres - Grant ID: IC160100027
Funder
Australian Research Council
Funding Amount
$4,340,802.00
Summary
ARC Training Centre for Biopharmaceutical Innovation. ARC Training Centre for Biopharmaceutical Innovation. This centre aims to transform Australia’s growing biopharmaceutical industry, an advanced manufacturing capability, by training specialist biotechnologists and bioengineers. It expects the research and development outputs will create new biopharmaceuticals and antibody-based reagents, enhanced production methods, improved manufacturing capabilities and a cohort of specialist scientists. Ne ....ARC Training Centre for Biopharmaceutical Innovation. ARC Training Centre for Biopharmaceutical Innovation. This centre aims to transform Australia’s growing biopharmaceutical industry, an advanced manufacturing capability, by training specialist biotechnologists and bioengineers. It expects the research and development outputs will create new biopharmaceuticals and antibody-based reagents, enhanced production methods, improved manufacturing capabilities and a cohort of specialist scientists. New biopharmaceuticals are expected to benefit the Australian economy and provide new therapeutic options for better health outcomes. Industry-driven research projects will also provide industry-ready graduates who can drive future growth in the sector.Read moreRead less
Understanding the role of nanoparticles in water based lubrication. This project seeks to understand the role of nanoparticles in the lubrication of hot strip rolling and then to develop novel nano-additive water-based lubricants to solve a long-standing issue for the steel-making industry. Lubrication significantly affects the surface quality of hot-rolled strips, roll wear and energy consumption in the steel-making industry. Currently, oil-based lubricants are used. However, their lubricant ef ....Understanding the role of nanoparticles in water based lubrication. This project seeks to understand the role of nanoparticles in the lubrication of hot strip rolling and then to develop novel nano-additive water-based lubricants to solve a long-standing issue for the steel-making industry. Lubrication significantly affects the surface quality of hot-rolled strips, roll wear and energy consumption in the steel-making industry. Currently, oil-based lubricants are used. However, their lubricant effect is considerably reduced by the use of high pressure cooling water, and the waste discharge is of environmental concern. Successful outcomes for the project are expected to improve product quality and reduce resource use.Read moreRead less
Grain size refinement of near beta titanium alloys - a route to developing new advanced medical implants and devices. This project seeks to develop targeted material solutions for application in the manufacture of new and improved medical components, such as stents. This will be achieved by developing new biocompatible beta titanium alloys with mechanical properties and forming behaviour that are optimised for implant applications associated with endovascular procedures.
Improvement of Additive Manufacturing Processability of Alloys and Ceramics. As the current materials that can be additively processed are still very limited, this project aims to increase the additive manufacturing processability of commercial engineering materials through developing effective and practical grain refinement technology so that more engineering parts can be additively fabricated. The project expects to widen the applications of this advanced manufacturing technology in industry p ....Improvement of Additive Manufacturing Processability of Alloys and Ceramics. As the current materials that can be additively processed are still very limited, this project aims to increase the additive manufacturing processability of commercial engineering materials through developing effective and practical grain refinement technology so that more engineering parts can be additively fabricated. The project expects to widen the applications of this advanced manufacturing technology in industry productions. Expected outcomes include commercialisation ready grain refinement technologies and breakthrough fundamental understanding of the physical metallurgy of melt pools. This should enhance Australia’s capability to establish world-leading additive manufacturing activities serving to various other industry sectors. Read moreRead less