New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry suppl ....New Lead-Free Brass Solutions for Drinking Water Applications. The aim of this Linkage Project is to provide viable material solutions to address the health problem of Lead-contamination in drinking water arising from Leaded-brass plumbing products and the impact Lead-removal from brass will have on the brass industry. In order to achieve this, this project engages leading multidisciplinary researchers along with Australian and international industry partners from across the brass industry supply and sales network. This project seeks to identify and harness the key material-product attributes required to develop and implement new, lead-free alloy alternatives that meet health-compliance, production and commercial viability, that offer benefits across the industry network and health benefits to society.Read moreRead less
Next-generation technology for determining fitness-for-use of starches in cereal grains. The project will deliver a new methodology to characterize starch-containing materials such as grains. This will provide the first tools to readily measure the full size distribution of starch in industry laboratories, giving far more information than is currently accessible. The data will be extremely sensitive to structural characteristics associated with desirable end-use properties. The new process will ....Next-generation technology for determining fitness-for-use of starches in cereal grains. The project will deliver a new methodology to characterize starch-containing materials such as grains. This will provide the first tools to readily measure the full size distribution of starch in industry laboratories, giving far more information than is currently accessible. The data will be extremely sensitive to structural characteristics associated with desirable end-use properties. The new process will enable conventional instrumentation methodology to be re-engineered to better select starch-containing materials. This will enable superior targeting and processing of materials for improved products in human nutrition, animal feed and manufactured goods such as biodegradable plastics.Read moreRead less
Microstructure and Rheology of Starch-Gelatine confectionery products as a function of manufacturing process. We propose to develop a novel continuous extrusion process for manufacturing confectionery jellies. Jellies are traditionally manufactured in a multi-step labour and capital-intensive batch process with inter-batch variability and difficult to automate. Continuous processes offer many advantages including high throughput, efficiency, straightforward automation including quality monitorin ....Microstructure and Rheology of Starch-Gelatine confectionery products as a function of manufacturing process. We propose to develop a novel continuous extrusion process for manufacturing confectionery jellies. Jellies are traditionally manufactured in a multi-step labour and capital-intensive batch process with inter-batch variability and difficult to automate. Continuous processes offer many advantages including high throughput, efficiency, straightforward automation including quality monitoring and control. They are little used in this industry because of the inability to relate product requirements through fundamental microstructural properties to processing conditions. This project addresses these key technical obstacles to gain the competitive advantage of continuous extrusion processing, through advanced mathematical modelling informed by experimentation. The proposed techniques derive from advanced polymer processing and characterisation capabilities.Read moreRead less
Light steel roof and wall systems under combined wind and bushfire actions. The project aims to investigate the complex behaviour of light cold-formed-steel roof and wall systems involving localized failures under the combined action of wind and bushfire using wind suction tests at elevated temperatures combined with advanced numerical modelling. It will generate new knowledge of the behaviour and strength of cold-formed-steel roof and wall systems under bushfire conditions. Expected outcomes in ....Light steel roof and wall systems under combined wind and bushfire actions. The project aims to investigate the complex behaviour of light cold-formed-steel roof and wall systems involving localized failures under the combined action of wind and bushfire using wind suction tests at elevated temperatures combined with advanced numerical modelling. It will generate new knowledge of the behaviour and strength of cold-formed-steel roof and wall systems under bushfire conditions. Expected outcomes include new design models for wind, bushfire and cold-formed-steel Standards. This will significantly improve the bushfire safety of buildings, since non-combustible steel roof and wall systems are used as building envelopes in bushfire prone areas, but are not designed to withstand recently discovered bushfire-enhanced winds.Read moreRead less
Design of Cost-effective Compositionally Complex Alloys. This project aims to develop low-cost and corrosion resistant compositionally complex alloys and associated processes to concurrently achieve high strength and high toughness using an innovative design strategy. The project expects to overcome the major limitations of this new type of alloys, enabling their practical applications in industry, creating new knowledge of materials science. Expected outcomes include commercialisation ready ne ....Design of Cost-effective Compositionally Complex Alloys. This project aims to develop low-cost and corrosion resistant compositionally complex alloys and associated processes to concurrently achieve high strength and high toughness using an innovative design strategy. The project expects to overcome the major limitations of this new type of alloys, enabling their practical applications in industry, creating new knowledge of materials science. Expected outcomes include commercialisation ready new alloys, breakthrough fundamental understanding of the mechanisms and long-term institutional collaboration. This should provide significant benefits, such as enhancement of Australia’s capacity of alloy development and manufacturing and strengthening the country’s world leading position in this area.Read moreRead less
Establishing the relations between starch nano- and mesostructure and macroscopic physical properties. Starch is the major energy component within human diets, and the most abundant polymer that can be readily extracted from annual crop plants, leading to many actual and potential industrial applications. There are major opportunities to optimise the nutritional value of starches in the human diet, and to enhance the properties of extracted starches as renewable alternatives to petrochemical pol ....Establishing the relations between starch nano- and mesostructure and macroscopic physical properties. Starch is the major energy component within human diets, and the most abundant polymer that can be readily extracted from annual crop plants, leading to many actual and potential industrial applications. There are major opportunities to optimise the nutritional value of starches in the human diet, and to enhance the properties of extracted starches as renewable alternatives to petrochemical polymers. This project will open up our understanding of the structure of starch polymers and show how this relates to important properties such as enzyme digestibility rates, leading to new opportunities for public health and commercial benefits.Read moreRead less
Plant based foods: Towards sustainable and acceptable meat analogues. The project aims to address the need for engineering plant-based food products to deliver a sensory experience akin to meat. The project expects to generate new knowledge on the structural drivers for emulating meat-like texture and taste within burger products. Expected outcomes of this project include new ingredients and food characterisation methodologies, including rheology and sensory, which can be employed in rational ....Plant based foods: Towards sustainable and acceptable meat analogues. The project aims to address the need for engineering plant-based food products to deliver a sensory experience akin to meat. The project expects to generate new knowledge on the structural drivers for emulating meat-like texture and taste within burger products. Expected outcomes of this project include new ingredients and food characterisation methodologies, including rheology and sensory, which can be employed in rational food structure design. This should provide significant benefits in enhancing the consumer acceptance of plant-based foods that is required to support the rapidly growing market opportunity for them and sustainable food production.Read moreRead less
SYNTHESIS OF A NANO-STRUCTURED TITANIA SURFACE AND ITS APPLICATION IN PHOTOCATALYTIC OXIDATION FOR WATER TREATMENT. Australia is facing severe freshwater crisis. Although there is an increasing public awareness of saving and using water efficiently, re-using water/wastewater has been neglected. In Australia, 97% of city runoff and 86% of effluent water is unproductive. How to recycle and re-use them becomes an urgent issue. This project attempts to develop novel titania based photocatalysts to c ....SYNTHESIS OF A NANO-STRUCTURED TITANIA SURFACE AND ITS APPLICATION IN PHOTOCATALYTIC OXIDATION FOR WATER TREATMENT. Australia is facing severe freshwater crisis. Although there is an increasing public awareness of saving and using water efficiently, re-using water/wastewater has been neglected. In Australia, 97% of city runoff and 86% of effluent water is unproductive. How to recycle and re-use them becomes an urgent issue. This project attempts to develop novel titania based photocatalysts to convert organic contaminated water into reusable/potable freshwater. The project's innovation lies in the synthesis of highly reactive nano-structured titania surfaces in fixed form to solve downstream separation problem. Successful development of such photocatalysts will show significant environmental and socio-economic benefits to Australia.Read moreRead less
Using genomic information to understand and improve the quality of the Australian South Sea Pearl. Recently, mass-produced freshwater pearls from Asia have markedly increased in quality and begun to compromise our prestigious South Sea Pearl market. This presents Australian pearlers with a challenge to maintain market identity by improving their pearl quality and consistency. By adding genomics to the existing Australian pearl industry armoury we will help not only to maintain the premier positi ....Using genomic information to understand and improve the quality of the Australian South Sea Pearl. Recently, mass-produced freshwater pearls from Asia have markedly increased in quality and begun to compromise our prestigious South Sea Pearl market. This presents Australian pearlers with a challenge to maintain market identity by improving their pearl quality and consistency. By adding genomics to the existing Australian pearl industry armoury we will help not only to maintain the premier position of the Australian South Sea Pearl in the market, but also to move it further ahead. Knowledge of the genetics of pearl formation will advance a range of hatchery and farm practices, such as selective breeding and pearl grafting, which in turn can enhance farm-based operations and the remote communities that support them.Read moreRead less
Enhancing the Pearl: understanding the molecular genetics of pearl lustre, colour and size. Australia produces some of the most valuable pearls in the world. However recently the world has been flooded with high quality mass-produced freshwater pearls. This has begun to eat into our prestigious South Sea Pearl market and now presents Australian pearlers with a challenge to maintain market identity. We propose to respond this challenge by improving the quality and consistency of the cultured Sou ....Enhancing the Pearl: understanding the molecular genetics of pearl lustre, colour and size. Australia produces some of the most valuable pearls in the world. However recently the world has been flooded with high quality mass-produced freshwater pearls. This has begun to eat into our prestigious South Sea Pearl market and now presents Australian pearlers with a challenge to maintain market identity. We propose to respond this challenge by improving the quality and consistency of the cultured South Sea Pearl through gaining a detailed understanding of how the oyster genetically controls pearl biofabrication - focusing on pearl colour, size and lustre. This information will identify pearl oysters that are a source of high-quality donor mantle tissue and that can be used in selective breeding programs.Read moreRead less