Hybrid resonant acoustics for microfluidic materials synthesis. This project aims to demonstrate the feasibility of a new class of sound waves as a microfluidic micronisation platform for high throughput particle synthesis and crystallisation of active pharmaceutical ingredients.It will use theoretical and numerical studies to research the fundamental physics of a hybrid between bulk and surface waves. This platform is expected to improve energy efficiency a thousandfold, providing an economical ....Hybrid resonant acoustics for microfluidic materials synthesis. This project aims to demonstrate the feasibility of a new class of sound waves as a microfluidic micronisation platform for high throughput particle synthesis and crystallisation of active pharmaceutical ingredients.It will use theoretical and numerical studies to research the fundamental physics of a hybrid between bulk and surface waves. This platform is expected to improve energy efficiency a thousandfold, providing an economical and environmental alternative to conventional processes such as spray drying, and potentially transforming practice across the pharmaceutical, food and other industries.Read moreRead less
Controlling and Predicting the Pilling Propensity of Fabrics. Pilling adversely affects the appearance of fabrics and garments. It is one of the most serious quality problems for the textile industry, particularly the wool industry. This project will examine and control the key factors that contribute to fabric pilling in the fibre-to-fabric conversion processes. It also aims to predict fabric pilling performance from these factors. This will help the industry, along the fibre to fabric chain, t ....Controlling and Predicting the Pilling Propensity of Fabrics. Pilling adversely affects the appearance of fabrics and garments. It is one of the most serious quality problems for the textile industry, particularly the wool industry. This project will examine and control the key factors that contribute to fabric pilling in the fibre-to-fabric conversion processes. It also aims to predict fabric pilling performance from these factors. This will help the industry, along the fibre to fabric chain, to understand the mechanism of pilling and to work together to manage and control this long-standing problem for the benefit of the textile industry as well as textile consumers.Read moreRead less
Optimizing the UV Protection of Textiles with Nano Zinc Oxide. Colour fading, due to poor fastness to light - especially ultraviolet light - is a critical problem that continues to plague the textile industry, especially for products such as flags, awnings and car upholstery that are used in outside applications and therefore exposed directly to sunlight. This research, in collaboration with Micronisers Pty Ltd, will develop improved nano zinc oxide formulations that will significantly reduce th ....Optimizing the UV Protection of Textiles with Nano Zinc Oxide. Colour fading, due to poor fastness to light - especially ultraviolet light - is a critical problem that continues to plague the textile industry, especially for products such as flags, awnings and car upholstery that are used in outside applications and therefore exposed directly to sunlight. This research, in collaboration with Micronisers Pty Ltd, will develop improved nano zinc oxide formulations that will significantly reduce the colour fading problems, and hence add value to the fledgling nano-tech (as well as traditional textile) industries in Australia. It could enable local production of a specialised textile finishing agent for export to major textile producers in South East Asia.Read moreRead less
Modelling and Performance Evaluation of Stab and Ballistic Resistant Fabrics. The aims of the project are to model and design stab resistant fabrics, and evaluate their stab and ballistic performance under simulated end-use conditions. Bi-component ballistic and stab resistant wearable and concealable garments will be produced and comprehensively characterised. This program is a significant first step towards developing Australian owned intellectual property for specialised protective garments f ....Modelling and Performance Evaluation of Stab and Ballistic Resistant Fabrics. The aims of the project are to model and design stab resistant fabrics, and evaluate their stab and ballistic performance under simulated end-use conditions. Bi-component ballistic and stab resistant wearable and concealable garments will be produced and comprehensively characterised. This program is a significant first step towards developing Australian owned intellectual property for specialised protective garments for local and export markets. Results from this study will produce fundamental knowledge on stab and ballistic resistant fabrics and armours, and provide practical information on the preparation of commercially acceptable protective products.Read moreRead less
Understanding the Drafting-against-Untwisting Process for Engineering Fine and Soft Yarns of Low Hairiness. This research will lead to much improved understanding of a very novel yarn engineering process to achieve fine, soft and low-hairiness yarns from natural fibres. It will demonstrate that Australia not only provides quality wool and cotton fibres, but also leads the world in innovative textile engineering technologies that can enhance the competitive positions of its natural fibres in the ....Understanding the Drafting-against-Untwisting Process for Engineering Fine and Soft Yarns of Low Hairiness. This research will lead to much improved understanding of a very novel yarn engineering process to achieve fine, soft and low-hairiness yarns from natural fibres. It will demonstrate that Australia not only provides quality wool and cotton fibres, but also leads the world in innovative textile engineering technologies that can enhance the competitive positions of its natural fibres in the global fibre market. This research promotes value adding in Australian fibre products by developing advanced yarn engineering technology, which will be of significant national benefit to the multi-billion natural fibre industries in Australia.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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883093
Funder
Australian Research Council
Funding Amount
$285,000.00
Summary
A Haptically enabled Universal Motion Simulator Research Facility. The proposed universal motion simulator research facility will enable to develop a better understanding of issues involved in ergonomic and safe vehicle designs and provides opportunities to improve Australia's international competitiveness and economic sustainability through innovations in the manufacturing and transport sectors. This universal motion simulator will provide opportunity to extend our understanding of operator con ....A Haptically enabled Universal Motion Simulator Research Facility. The proposed universal motion simulator research facility will enable to develop a better understanding of issues involved in ergonomic and safe vehicle designs and provides opportunities to improve Australia's international competitiveness and economic sustainability through innovations in the manufacturing and transport sectors. This universal motion simulator will provide opportunity to extend our understanding of operator controlled devices, such as cars and mining machinery, and to develop effective strategies to reduce the risk of vehicle accidents.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346666
Funder
Australian Research Council
Funding Amount
$260,000.00
Summary
Mobile high power diode laser for thermal processing applications. This proposal seeks to establish a mobile, high-power diode laser facility for thermal processing of in-situ components in the power generation, defence, shipbuilding and mining industries. Diode lasers offer significant advantages for laser thermal processing over conventional CO2 and Nd:YAG lasers in terms of their output wavelength, size and efficiency. The mobile high power diode laser facility will help build a strong infr ....Mobile high power diode laser for thermal processing applications. This proposal seeks to establish a mobile, high-power diode laser facility for thermal processing of in-situ components in the power generation, defence, shipbuilding and mining industries. Diode lasers offer significant advantages for laser thermal processing over conventional CO2 and Nd:YAG lasers in terms of their output wavelength, size and efficiency. The mobile high power diode laser facility will help build a strong infrastructure for in-situ repair of worn components and is expected to reduce overall component repair costs and time.Read moreRead less
Advanced three-dimensional fibrous structures for vascular graft applications. This project will combine advanced three-dimensional fabric structures, surface functionalisation and haemodynamic modelling to tackle critical issues in the design and manufacture of vascular graft materials. It will lead to the next generation of vascular grafts with much enhanced structural and biomedical performance.
Development of a new rail maintenance technology by using laser cladding. With the continuously increasing demand for higher production, and hence increased haulage rates and reduced track access for maintenance purposes, the development and application of new cost effective manufacture and repair rails maintenance strategies play a more important role in ensuring the structural integrity of rail infrastructure. This project aims to systematically investigate the laser cladding materials and par ....Development of a new rail maintenance technology by using laser cladding. With the continuously increasing demand for higher production, and hence increased haulage rates and reduced track access for maintenance purposes, the development and application of new cost effective manufacture and repair rails maintenance strategies play a more important role in ensuring the structural integrity of rail infrastructure. This project aims to systematically investigate the laser cladding materials and parameters to enhance the wear and fatigue performance of a series of high strength rail steels used in heavy haul railway lines. The outcomes of this project intend to be applied directly to the rail industry track producers and operators of high axle load rail systems to develop and improve their rail maintenance strategies.Read moreRead less