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Micromanipulation system. Many frontier areas such as micromanufacturing, microsurgery, biotechnology, and nanotechnology require high precision micromanipulation systems. This project aims to investigate fundamental issues in micromanipulation systems using an ARC-LIEF funded research facility, and establish methodologies for modelling and analysis, together with their experimental verification to evaluate the influence of various parameters in such systems. The findings will be utilised to e ....Micromanipulation system. Many frontier areas such as micromanufacturing, microsurgery, biotechnology, and nanotechnology require high precision micromanipulation systems. This project aims to investigate fundamental issues in micromanipulation systems using an ARC-LIEF funded research facility, and establish methodologies for modelling and analysis, together with their experimental verification to evaluate the influence of various parameters in such systems. The findings will be utilised to establish sensory-based control techniques to solve problems associated with predictability, control, and efficiency for future advancement of such novel systems. The outcomes will include acquiring new knowledge in micromanipulation systems for potential utilization of the innovative concepts in the frontier areas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347024
Funder
Australian Research Council
Funding Amount
$140,000.00
Summary
Research facility in micromanipulation. The aim of the program is to establish a unique joint facility between Monash and Deakin for micromanipulation research. The proposed facility will consist of complex/intelligent micromanipulation systems capable of motion accuracy of 0.01-0.1 micrometer (10-100 nm). This will be the only facility of its kind in Australia and will provide a key enabling technology in the research and development of advanced micromanipulation systems, robotic-assisted mic ....Research facility in micromanipulation. The aim of the program is to establish a unique joint facility between Monash and Deakin for micromanipulation research. The proposed facility will consist of complex/intelligent micromanipulation systems capable of motion accuracy of 0.01-0.1 micrometer (10-100 nm). This will be the only facility of its kind in Australia and will provide a key enabling technology in the research and development of advanced micromanipulation systems, robotic-assisted microsurgery, sensory-based and intelligent control of complex systems, micro assembly/manufacturing, telerobotics/telesurgery, kinematics and dynamics of micromanipulators, laser-based control, and biotechnology. The facility will support and enhance a number of high-quality, current and future research projects with recognised potential.Read moreRead less
ARC Research Network for Advanced Materials. Materials science/engineering is decidedly interdisciplinary, covering all science and impacting on all manufacturing industry. This network will promote interactions that do not usually occur between materials researchers and students across Australia and internationally from diverse disciplines. The scope is broadly based on advanced materials production, processing and properties but focused in four areas, involving: i) innovative structural/functi ....ARC Research Network for Advanced Materials. Materials science/engineering is decidedly interdisciplinary, covering all science and impacting on all manufacturing industry. This network will promote interactions that do not usually occur between materials researchers and students across Australia and internationally from diverse disciplines. The scope is broadly based on advanced materials production, processing and properties but focused in four areas, involving: i) innovative structural/functional materials, ii) high-tech IT/communications/sensing materials, iii) materials solutions for manufacturing, iv) materials for a sustainable Australia, and v) emerging materials technologies. Key programs will promote interdisciplinary workshops and early career researcher interactions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668473
Funder
Australian Research Council
Funding Amount
$710,000.00
Summary
Direct Metal Deposition Freeform Fabrication Facility for Rapid Tooling and Manufacturing. Tools, dies and moulds produce approximately 87% of plastic and metal products for industries ranging among automotive, medical, electronics, aerospace and consumer products. The industry appears to be in a state of decline with domestic demand for tools, dies and moulds shrinking because manufacturing facilities are relocating to foreign countries to take advantage of low-cost labour and manufacturing cos ....Direct Metal Deposition Freeform Fabrication Facility for Rapid Tooling and Manufacturing. Tools, dies and moulds produce approximately 87% of plastic and metal products for industries ranging among automotive, medical, electronics, aerospace and consumer products. The industry appears to be in a state of decline with domestic demand for tools, dies and moulds shrinking because manufacturing facilities are relocating to foreign countries to take advantage of low-cost labour and manufacturing costs. The new technology of Direct Metal Deposition offers an opportunity to reverse this trend by providing tools that are faster to manufacture, allow for old tools to be refurbished and to incorporate special features into the tools, to deliver competitive advantages.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775692
Funder
Australian Research Council
Funding Amount
$430,000.00
Summary
Micro/nano optomechatronics sensing, measurement, and control research facility. This project aims to establish a facility that enhances the capabilities for sensing, positioning, and manipulating of micro/nano scale objects and environment, and as such constitutes the building block for many frontier technologies such as nanotechnology, bio/nano medicine, microsurgery and neurosurgery, biotechnology, microbiology, microfluidics, and micro/nano manufacturing, all of which are still in their infa ....Micro/nano optomechatronics sensing, measurement, and control research facility. This project aims to establish a facility that enhances the capabilities for sensing, positioning, and manipulating of micro/nano scale objects and environment, and as such constitutes the building block for many frontier technologies such as nanotechnology, bio/nano medicine, microsurgery and neurosurgery, biotechnology, microbiology, microfluidics, and micro/nano manufacturing, all of which are still in their infancy and promise to be the challenging areas of research for the next two decades. The outcomes will strengthen Australia's position in world-class innovative scientific research. It also strengthens collaboration between major engineering institutions and medical experts for innovative research and training of researchers.Read moreRead less
Laser Assisted Machining of Hard-to-wear Materials for Slurry Pump and Mineral Processing Equipment. The project aims to develop techniques for commercially applicable machining of very hard-to-wear materials using high power laser beams. Traditional techniques of machining such components using cubic boron nitride (CBN) based cutting tools are highly time consuming and expensive both in terms of labour costs and inserts costs. The laser assisted machining of these materials is expected to redu ....Laser Assisted Machining of Hard-to-wear Materials for Slurry Pump and Mineral Processing Equipment. The project aims to develop techniques for commercially applicable machining of very hard-to-wear materials using high power laser beams. Traditional techniques of machining such components using cubic boron nitride (CBN) based cutting tools are highly time consuming and expensive both in terms of labour costs and inserts costs. The laser assisted machining of these materials is expected to reduce the cost and lead time of manufacturing, provide improved tool wear life, and improved on time delivery of products. The technology will have application to the manufacture and use of slurry pumps associated with the mineral processing and mining industries.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
Mathematical, logical and computational foundations of hybrid control systems, and their application to design and synthesis problems in control engineering. Hybrid control systems are mathematical models of heterogeneous systems consisting of digital computer components interacting in real-time with continuous physical processes. Their many engineering applications include air traffic control, medical technology and automated transport. Motivated by such safety-critical and high-confidence appl ....Mathematical, logical and computational foundations of hybrid control systems, and their application to design and synthesis problems in control engineering. Hybrid control systems are mathematical models of heterogeneous systems consisting of digital computer components interacting in real-time with continuous physical processes. Their many engineering applications include air traffic control, medical technology and automated transport. Motivated by such safety-critical and high-confidence applications, the project aims to develop a unified framework of mathematical logics adequate to formally represent and reason about the structure, behaviour, and properties of hybrid control systems, and use this to develop methodologies for automatically synthesising hybrid control programs that are provably correct with respect to their specifications. Other outcomes include prototype software implementations of hybrid controller design tools.Read moreRead less
Design and Fabrication of Molecular Machines: the Nanomachines of the Future. Nanotechnology that incorporates the use of nanomachines and molecular machines is an exciting new area of translational research, with broad potential in biomedical technology and industrial applications. We are developing new molecular machines and optimising their assembly. Recent innovation in the world of nanotechnology concerns the design and manufacture of synthetic and hybrid machines, based on existing biologi ....Design and Fabrication of Molecular Machines: the Nanomachines of the Future. Nanotechnology that incorporates the use of nanomachines and molecular machines is an exciting new area of translational research, with broad potential in biomedical technology and industrial applications. We are developing new molecular machines and optimising their assembly. Recent innovation in the world of nanotechnology concerns the design and manufacture of synthetic and hybrid machines, based on existing biological molecular machines but incorporating synthetic parts. Australia has an opportunity to be at the forefront of these new developments in nanotechnology, with a new generation of Australian scientists being trained across the foundation disciplines of chemistry, physics and molecular biology.Read moreRead less
An intelligent design support system for manufacturing of palletising machinery. The food and beverage manufacturing process in most Australian enterprises is a highly automated process, where food cartons, bottles or cans are required to move at a controlled speed for filling or assembly operations. These operations require highly efficient and reliable material handling machinery such as palletising systems. The outcome of this research will be of direct economic benefit to Australian manuf ....An intelligent design support system for manufacturing of palletising machinery. The food and beverage manufacturing process in most Australian enterprises is a highly automated process, where food cartons, bottles or cans are required to move at a controlled speed for filling or assembly operations. These operations require highly efficient and reliable material handling machinery such as palletising systems. The outcome of this research will be of direct economic benefit to Australian manufacturers and suppliers of such machinery in reducing the cost and lead time of designing and delivering highly automated flexible palletising and de-palletising systems with maximum performance.Read moreRead less