Development of nano reinforced concrete using boron nitride nanosheets. This project seeks to develop high-performance concrete materials by exploiting emerging nanotechnology. It plans to adopt emerging nanotechnology involving hexagonal boron nitride nanosheets and advanced micro-computer tomography instrumentation to transform conventional concrete into one that is stronger and more durable in extreme environmental conditions. It also plans to use sophisticated modelling techniques including ....Development of nano reinforced concrete using boron nitride nanosheets. This project seeks to develop high-performance concrete materials by exploiting emerging nanotechnology. It plans to adopt emerging nanotechnology involving hexagonal boron nitride nanosheets and advanced micro-computer tomography instrumentation to transform conventional concrete into one that is stronger and more durable in extreme environmental conditions. It also plans to use sophisticated modelling techniques including molecular dynamics simulations as well as microplane models to analyse the effect of nanofillers. The findings may drive advances in cement hydration, nanotechnology, concrete technology and blast, impact and fire engineering.Read moreRead less
Concrete Enriched with Carbon Nanotubes for Advanced Future Construction. This project aims to develop an advanced construction material based on enrichment of concrete with carbon nanotubes (CNT). Concrete, the most consumed construction material globally, is brittle and needs embedded steel reinforcement. Concrete enriched with CNT, one of the strongest known fibres, may partially replace conventional bulky and heavier steel reinforcement thereby creating economies (e.g. thinner section sizes) ....Concrete Enriched with Carbon Nanotubes for Advanced Future Construction. This project aims to develop an advanced construction material based on enrichment of concrete with carbon nanotubes (CNT). Concrete, the most consumed construction material globally, is brittle and needs embedded steel reinforcement. Concrete enriched with CNT, one of the strongest known fibres, may partially replace conventional bulky and heavier steel reinforcement thereby creating economies (e.g. thinner section sizes), and reduced carbon dioxide emissions by expending less steel and cement for construction. This project extends earlier research by the research team and aims to transform cement-CNT pastes into construction-scale concrete by resolving uncertainties associated with scaling.Read moreRead less
Hybrid materials with tunable mechanical response via topological interlocking and embedded kinematic agents. The project investigates a new approach to materials design targeting the inner architecture of materials. Such materials will be multifunctional and responsive to external fields. Applications include sound- and vibration-absorbing cladding, morphing aerospace and automotive materials, and protective civil engineering structures.
Novel energy-efficient electrowinning anodes. Developed nations rely extensively on metallic materials to sustain modern society. This places a significant importance on delivery of base metals, and that delivery must be as efficient and clean as possible. The first step in the delivery chain is extraction from the ore, and much of this technology is based on electrowinning (EW), where the behaviour of the anode is critical to overall process efficiency. This project will deliver advances in EW ....Novel energy-efficient electrowinning anodes. Developed nations rely extensively on metallic materials to sustain modern society. This places a significant importance on delivery of base metals, and that delivery must be as efficient and clean as possible. The first step in the delivery chain is extraction from the ore, and much of this technology is based on electrowinning (EW), where the behaviour of the anode is critical to overall process efficiency. This project will deliver advances in EW anodes which will lead to energy savings, which in turn, will result in a cleaner overall production cycle, major emission reductions and cost savings. The expected outcomes of this project are targeted at the development of new and advanced anode materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100053
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
State-of-the-Art Facility for Non-destructive Testing of Concrete Infrastructure (N-DETECT). State-of-the-art facility for non-destructive testing of concrete infrastructure: There are many recent examples around the world where ageing concrete infrastructure has led to catastrophic failures with loss of life and severe damage to infrastructure. Non destructive testing (NDT) gives a reliable method to provide an accurate assessment of the condition of a structure. However NDT requires an underst ....State-of-the-Art Facility for Non-destructive Testing of Concrete Infrastructure (N-DETECT). State-of-the-art facility for non-destructive testing of concrete infrastructure: There are many recent examples around the world where ageing concrete infrastructure has led to catastrophic failures with loss of life and severe damage to infrastructure. Non destructive testing (NDT) gives a reliable method to provide an accurate assessment of the condition of a structure. However NDT requires an understanding of the various methods available, and their capabilities and limitations, through systematic research projects. Very little research has been done in Australia and overseas in this area due to lack of facilities. This state-of-the-art testing equipment will provide Australian institutions with a cutting edge facility with portable equipment for NDT related research.Read moreRead less
Development of Steel Fibre Reinforced Concrete (SFRC) material with spiral-shaped fibres. This project will develop new spiral-shaped steel fibres to be added in concrete to improve its strength, toughness, crack bridging, deformation and impact resistance capacities. It will create better concrete material for wide applications in construction to resist extreme loading conditions such as explosions and high-speed impacts.
On demand three-dimensional printing of stainless steel parts. On demand three-dimensional printing of stainless steel parts. This project aims to revolutionize the security of supply of critical stainless steel parts by producing them on-site and on demand, using three dimensional metal printing. Australia’s oil and gas industry uses tonnes of stainless steel for critical processing components in production plants. Australia is also one of the few developed nations without appreciable productio ....On demand three-dimensional printing of stainless steel parts. On demand three-dimensional printing of stainless steel parts. This project aims to revolutionize the security of supply of critical stainless steel parts by producing them on-site and on demand, using three dimensional metal printing. Australia’s oil and gas industry uses tonnes of stainless steel for critical processing components in production plants. Australia is also one of the few developed nations without appreciable production and processing facilities for stainless steels, so relies on specialist overseas suppliers. This is a major risk to the industry, which stores billions of dollars’ worth of replacement parts, including stainless steels, in inventory. This project should reduce reliance on overseas steel suppliers and free up hundreds of millions of dollars of capital invested in the inventory stores of replacement stainless steel parts.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC150100023
Funder
Australian Research Council
Funding Amount
$4,000,000.00
Summary
ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. This training centre aims to unlock the potential for growth of Australia’s prefabricated building industry by creating a sustainable training ecosystem including both industry and universities. It seeks to enable the next generation of engineers and architects to apply advanced manufacturing principles to prefabricated modular buildings. This emerging ....ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. This training centre aims to unlock the potential for growth of Australia’s prefabricated building industry by creating a sustainable training ecosystem including both industry and universities. It seeks to enable the next generation of engineers and architects to apply advanced manufacturing principles to prefabricated modular buildings. This emerging highly trained workforce, driven by the needs of the customer, should identify innovations in the use of advanced materials, designs for manufacturing, and assembly. The centre aims to secure a competitive advantage for Australia in the global value chain leading to local employment growth and increased exports of prefabricated products and services.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989123
Funder
Australian Research Council
Funding Amount
$575,000.00
Summary
Spark Plasma Sintering (SPS) Facility for Advanced Materials Processing. The establishment of the first Spark Plasma Sintering (SPS) facility would significantly enhance Australia's capacity in manufacturing of advanced materials, especially the more sophisticated and specialized materials, which is a National Research Priority. This facility will benefit a large number of researchers and projects in Australia's premier research organisations and will also meet the needs of organisations outside ....Spark Plasma Sintering (SPS) Facility for Advanced Materials Processing. The establishment of the first Spark Plasma Sintering (SPS) facility would significantly enhance Australia's capacity in manufacturing of advanced materials, especially the more sophisticated and specialized materials, which is a National Research Priority. This facility will benefit a large number of researchers and projects in Australia's premier research organisations and will also meet the needs of organisations outside the consortium. It will allow Australian researchers to remain at the leading edge of research and enhance collaborations in advanced materials nationwide. The successful outcomes of these activities will underpin the advancement in many areas of research and technology developments in the country.Read moreRead less