Self Assembling Polymers for Novel Packaging Products. Have you had wet paper bags rip or stacks of boxes collapse during shipping? Novel polymer strength agents will be combined with nanoparticles to develop very strong paper packaging meeting Australia's needs. We will produce very strong paper packaging resisting frequent moisture changes while remaining fully recyclable. These strength agents will be produced and used in Australia to manufacture the fibre packaging needed to ship our manufac ....Self Assembling Polymers for Novel Packaging Products. Have you had wet paper bags rip or stacks of boxes collapse during shipping? Novel polymer strength agents will be combined with nanoparticles to develop very strong paper packaging meeting Australia's needs. We will produce very strong paper packaging resisting frequent moisture changes while remaining fully recyclable. These strength agents will be produced and used in Australia to manufacture the fibre packaging needed to ship our manufactured and agriculture goods within Australia and for export. The Paper industry is the largest manufacturing industry in rural Australia with sales of $4 billion and 5,900 direct and 85,000 indirect jobs.Read moreRead less
Development of composite materials from waste paper and plastics. Significant tonnages of plastics are currently not recycled because of paper impurities. This project will develop compounding and processing procedures, define the thermal and mechanical properties of the recycled composites and develop novel composite materials using plastics as a matrix and waste paper as a filler. These processes will then be applied to factory trials.
Industrial Transformation Research Hubs - Grant ID: IH130100016
Funder
Australian Research Council
Funding Amount
$1,633,554.00
Summary
ARC Research Hub for BioProcessing Advanced Manufacturing. ARC Research Hub for BioProcessing Advanced Manufacturing. The aim of the Research Hub is to develop functional materials to maximize the value of forest resources; and green chemistry and energy solutions for bioprocessing industries. Lignocellulosic streams will be converted into a complement of marketable materials, chemicals and energy products. Examples include new polymers and composites, smart packaging, chemical intermediates, fu ....ARC Research Hub for BioProcessing Advanced Manufacturing. ARC Research Hub for BioProcessing Advanced Manufacturing. The aim of the Research Hub is to develop functional materials to maximize the value of forest resources; and green chemistry and energy solutions for bioprocessing industries. Lignocellulosic streams will be converted into a complement of marketable materials, chemicals and energy products. Examples include new polymers and composites, smart packaging, chemical intermediates, fuel, green energy and nanocellulose and cellulosic fibre applications. These will drive advances in chemical engineering, materials and green chemistry for the full conversion of lignocellulosics. The Hub will complement research developments with short courses and a problem-based Masters in BioProcess Engineering to keep industry workers up to date with evolving science and technology.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH170100020
Funder
Australian Research Council
Funding Amount
$2,641,142.00
Summary
ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced mate ....ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced materials that can be used in the industries of the future. Research aims to identify new applications and products. They will be derived from lignocellulose through the advent of new smart paper packaging, green chemical and materials with unique properties. Benefits will flow to the pharmaceutical, chemicals, plastics and food packaging industries.Read moreRead less
Novel Cellulosic Products and Sustainable Bioresource Engineering. The paper industry is a key industry in the Australian economy and particularly in rural and regional Australia. 6000 people are employed directly by the paper manufacturing companies and many thousands more employed in providing services and inputs to the industry. This grant aims to assure the future of the industry by developing standards to measure the environmental impact; by using these standards and innovative materials ....Novel Cellulosic Products and Sustainable Bioresource Engineering. The paper industry is a key industry in the Australian economy and particularly in rural and regional Australia. 6000 people are employed directly by the paper manufacturing companies and many thousands more employed in providing services and inputs to the industry. This grant aims to assure the future of the industry by developing standards to measure the environmental impact; by using these standards and innovative materials to greatly reduce the environmental impact of the industry; and by developing new highly profitable products for the industry including a lightweight corrugated box that won't sag when wet, a paper-mineral composite to capture and store green house gases.Read moreRead less
Grown not extracted: high performance plant-based polymer packaging. This project aims to develop high performance, thermoformed paper-like materials to replace petroleum-derived plastic packaging. The materials are made using mechanically broken down waste cellulose fibres, which are then formed into shapes with added barrier layers. The grant aims to control the mechanical treatment for optimum performance, engineer the shape forming process and design laminate structures to produce packaging ....Grown not extracted: high performance plant-based polymer packaging. This project aims to develop high performance, thermoformed paper-like materials to replace petroleum-derived plastic packaging. The materials are made using mechanically broken down waste cellulose fibres, which are then formed into shapes with added barrier layers. The grant aims to control the mechanical treatment for optimum performance, engineer the shape forming process and design laminate structures to produce packaging materials, which have all the advantages of plastic packaging with none of the environmental drawbacks. The grant also aims to develop new methods to characterise these composites. The intended outcome is a new industry manufacturing renewable, biodegradable packaging in Australia.
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Cellulosic and paper-based biosensors for blood analysis. Testing the blood compatibility of an Australian evacuated for surgery; measuring the iron content from India for anemia treatment; identifying the outbreak of malaria in Pakistan; measuring prostate specific antigen/blood screening in your home. These are novel applications for paper biosensors, which will improve health and create new jobs in Australia.
Industrial Transformation Research Hubs - Grant ID: IH130100017
Funder
Australian Research Council
Funding Amount
$5,000,000.00
Summary
ARC Research Hub for Australian Steel Manufacturing. ARC Research Hub for Australian Steel Manufacturing. The aim of this Research Hub is to develop breakthrough process and product innovations to enable the Australian steel industry to improve its global competitiveness. Based on an integrated, value chain-wide approach to innovation in the steel sector the Research Hub includes projects on innovation strategy and management, customer-focused product development, innovation in coating and surfa ....ARC Research Hub for Australian Steel Manufacturing. ARC Research Hub for Australian Steel Manufacturing. The aim of this Research Hub is to develop breakthrough process and product innovations to enable the Australian steel industry to improve its global competitiveness. Based on an integrated, value chain-wide approach to innovation in the steel sector the Research Hub includes projects on innovation strategy and management, customer-focused product development, innovation in coating and surface engineering technology, and economic and environmental sustainability of iron and steelmaking.Read moreRead less
Carbon nanotube fluidic channels for desalination - interplay of nanoscale confinement and electrostatics. Tiny tubes of carbon, ten thousand times smaller than human hair, allow water to pass through at extraordinary speed. This project aims to understand and improve their salt rejection properties using comprehensive experimental and theoretical approaches. This will provide the impetus and knowledge for developing advanced membranes for desalination
A New Approach to Advanced Steels via Cluster and Precipitate Strengthening. Formation of interphase nanoparticles and clusters is a new approach to increase strength in advanced high strength steels. Exceptionally high strength levels can be achieved in alloys that only have solute clusters by controlling the temperature-time history. However, the exact mechanism for the formation of clusters and precipitates and the cluster strengthening mechanism are not understood, nor do we know how to cont ....A New Approach to Advanced Steels via Cluster and Precipitate Strengthening. Formation of interphase nanoparticles and clusters is a new approach to increase strength in advanced high strength steels. Exceptionally high strength levels can be achieved in alloys that only have solute clusters by controlling the temperature-time history. However, the exact mechanism for the formation of clusters and precipitates and the cluster strengthening mechanism are not understood, nor do we know how to control cluster formation. This project aims to develop a fundamental understanding of the formation of clusters and nanoprecipitates and determine their contribution to strengthening and other mechanical properties using advanced characterisation techniques such as atom probe tomography and electron microscopy.Read moreRead less