Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100016
Funder
Australian Research Council
Funding Amount
$490,000.00
Summary
Multi-scale fabrication facility for complex three-dimensional surface generation from nano to macro dimensions. This facility will support advances in the manufacturing of free-form surfaces with submicron features. Its unique characteristics, such as the universal profiling ability and nanometre accuracy across large dimensions, will enable many science and engineering innovations which are presently impossible to be realised in Australia.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100036
Funder
Australian Research Council
Funding Amount
$310,000.00
Summary
Super high speed grinding facility for difficult-to-machine materials and structures. This unique system will enable the manufacture of difficult-to-machine materials and structures with high quality and high productivity. It will support ground-breaking research activities across the country and help promote the strategic collaborations within Australian manufacturing society.
Discovery Early Career Researcher Award - Grant ID: DE180101407
Funder
Australian Research Council
Funding Amount
$359,446.00
Summary
Three-dimensional metal printing based on controlled removal of self-assembled monolayers. This project aims to develop a unique approach for three-dimensional metal micro-printing based on controlled removal of self-assembled monolayers. The application of electro-deposition for three-dimensional metal printing is currently hindered by the incapacity of site-selective control of the deposition area. The project expects to produce a new three dimensional metal microprinting technology, with bene ....Three-dimensional metal printing based on controlled removal of self-assembled monolayers. This project aims to develop a unique approach for three-dimensional metal micro-printing based on controlled removal of self-assembled monolayers. The application of electro-deposition for three-dimensional metal printing is currently hindered by the incapacity of site-selective control of the deposition area. The project expects to produce a new three dimensional metal microprinting technology, with benefits to manufacturing industries, particularly those requiring production of micro/nano metallic components.Read moreRead less
Robotic microsurgery: intra-operative measurement, modelling and micromanipulation control. This research will significantly improve microsurgery and minimally invasive surgery techniques, and further produce important benefits to medicine and healthcare. The project will also open new domains in the capabilities of modelling and control of complex systems with significant impact and benefits to numerous science and engineering practices.
Laser-based sensing, measurement and control of multi-axis flexure-based mechanisms for nano manipulations. The project aims to investigate fundamental issues in measurement, design, optimisation, and control of multi-axis flexure-based nano manipulators. It aims to establish novel sensing methodologies for position and orientation measurements and feedback, and advanced control techniques for nano manipulation in view of actuators’ nonlinearities, interferences among motion axes, and external d ....Laser-based sensing, measurement and control of multi-axis flexure-based mechanisms for nano manipulations. The project aims to investigate fundamental issues in measurement, design, optimisation, and control of multi-axis flexure-based nano manipulators. It aims to establish novel sensing methodologies for position and orientation measurements and feedback, and advanced control techniques for nano manipulation in view of actuators’ nonlinearities, interferences among motion axes, and external disturbances. The research is significant as such nano manipulators and methodologies represent the building blocks for many future scientific and engineering nano manipulation systems. The project will establish new knowledge, methodologies, and instrumentations for measurement, characterisation and control of multi-axis flexure-based nano manipulators.Read moreRead less
Characterization, modelling and control for robotic thermal ablation. This project aims to study the fundamental issues in robotic-assisted minimally invasive thermal ablation, an important therapy for patients with cancer. It aims to establish advanced characterisation and modelling methodologies for thermomechanical behaviours of soft tissues, together with automatic planning and precise manipulation control techniques for robotic thermal ablation therapies. The project will establish new know ....Characterization, modelling and control for robotic thermal ablation. This project aims to study the fundamental issues in robotic-assisted minimally invasive thermal ablation, an important therapy for patients with cancer. It aims to establish advanced characterisation and modelling methodologies for thermomechanical behaviours of soft tissues, together with automatic planning and precise manipulation control techniques for robotic thermal ablation therapies. The project will establish new knowledge and instrumentation for robotic-assisted thermal ablation and minimally invasive surgery. The outcomes of this project will produce important benefits to medicine, healthcare and medical technology industry, and further consolidate Australia’s position in innovative technologies and research and development of advanced healthcare systems and instruments.Read moreRead less
High Performance Twist Drill Design and Drilling Operations for Machining Mould Steel. In this project a high performance drill point design, based on low drilling forces and high drill-life criteria when machining mould steel will be developed together with a computer application software for drilling force predictions, based on the ¡®unified-generalised mechanics of cutting approach¡¯, and optimal drilling feed and speed selection for minimum cost and time per hole, based on a multi-constraint ....High Performance Twist Drill Design and Drilling Operations for Machining Mould Steel. In this project a high performance drill point design, based on low drilling forces and high drill-life criteria when machining mould steel will be developed together with a computer application software for drilling force predictions, based on the ¡®unified-generalised mechanics of cutting approach¡¯, and optimal drilling feed and speed selection for minimum cost and time per hole, based on a multi-constraint drilling optimization analysis. Particular attention will be given to the manufacture of the drill point geometry. It is anticipated that the application software will enable the drill design, manufacture, performance and drilling conditions to be integrated.Read moreRead less
Predictive Mechanics of Cutting Models for Forces and Torque in Machine Tapping Operations with Straight and Helical Flute Taps. This project is aimed at developing a fundamental understanding of the cutting process as well as mechanics of cutting mathematical models and software for reliable predictions of all the force components, torque and power in machine tapping of both wrought and sintered metallic materials with straight and helical fluted taps. This investigation will provide useful fun ....Predictive Mechanics of Cutting Models for Forces and Torque in Machine Tapping Operations with Straight and Helical Flute Taps. This project is aimed at developing a fundamental understanding of the cutting process as well as mechanics of cutting mathematical models and software for reliable predictions of all the force components, torque and power in machine tapping of both wrought and sintered metallic materials with straight and helical fluted taps. This investigation will provide useful fundamental and practical information and data on the tapping operations, renowned as 'some of the most neglected operations in machining research' and as 'bottleneck operations in practice'. This project heads towards satisfying the internationally recognised pressing need for quantitatively reliable machining performance data and equations.Read moreRead less
Development of High Performance Mechanical Sorting of Plastics for Recycling. This research program aims to develop and test a range of high performance, mechanical in-process plastics sorting technologies in conjunction with Australia's lead recycling company. Currently, recycling techniques result in an insufficient purity and quality level, thus limiting the extent of recycling and opportunity for end product applications. Increasing the purity of recycled plastics and economics of recyclin ....Development of High Performance Mechanical Sorting of Plastics for Recycling. This research program aims to develop and test a range of high performance, mechanical in-process plastics sorting technologies in conjunction with Australia's lead recycling company. Currently, recycling techniques result in an insufficient purity and quality level, thus limiting the extent of recycling and opportunity for end product applications. Increasing the purity of recycled plastics and economics of recycling, without compromising throughput levels, will result in an increase in recycling rates and the range of applications of recycled plastics.Read moreRead less
Haptic exploration and manipulation of micro/nano scale environment. The proposed research is novel and innovative in character and it has potential benefits in many frontier areas utilising micro/nano manipulation systems. These include micromanufacturing and instrumentation, microbiology, microsurgery and nanotechnology. The outcomes of this project will add to the growth of world-class Australian engineering science, and consolidate Australia's position in innovative technologies and internat ....Haptic exploration and manipulation of micro/nano scale environment. The proposed research is novel and innovative in character and it has potential benefits in many frontier areas utilising micro/nano manipulation systems. These include micromanufacturing and instrumentation, microbiology, microsurgery and nanotechnology. The outcomes of this project will add to the growth of world-class Australian engineering science, and consolidate Australia's position in innovative technologies and international R&D. This highly challenging project will provide training for postdoctorate researchers, postgraduate and honours students. These researchers will gain expertise in many areas including micro/nano manipulation, sensing and control, system design and analysis, virtual reality and experimental techniques.Read moreRead less