HyPoCrete: Hydrogen storage using an innovative concrete composite system. This project aims to develop an innovative polymer concrete composite system for the safe and efficient storage of hydrogen. New knowledge is expected to be generated on the novel use of polymer and concrete materials in hydrogen storage technologies. The expected outcomes include a new class of prefabricated, modular storage system that is highly efficient and low cost. The scalability and resilience of the system will b ....HyPoCrete: Hydrogen storage using an innovative concrete composite system. This project aims to develop an innovative polymer concrete composite system for the safe and efficient storage of hydrogen. New knowledge is expected to be generated on the novel use of polymer and concrete materials in hydrogen storage technologies. The expected outcomes include a new class of prefabricated, modular storage system that is highly efficient and low cost. The scalability and resilience of the system will be achieved by using concrete, a material widely used in the construction industry for its mechanical performance, durability and affordability. This should provide significant benefits in fostering the hydrogen economy by providing an efficient and resilient storage system for industrial quantities of hydrogen.Read moreRead less
Thixotropic Structure Generation and Semisolid Casting of Aluminium and Magnesium Alloys. A range of aluminium and magnesium alloys will be prepared by controlled-pouring to produce structures suitable for semisolid forming. The conditions around grain nucleation and growth will be studied to ascertain the controlling factors in producing suitable microstructures. A computer model to simulate the thixotropic structure formation and define the processing parameters will be developed. Semisolid c ....Thixotropic Structure Generation and Semisolid Casting of Aluminium and Magnesium Alloys. A range of aluminium and magnesium alloys will be prepared by controlled-pouring to produce structures suitable for semisolid forming. The conditions around grain nucleation and growth will be studied to ascertain the controlling factors in producing suitable microstructures. A computer model to simulate the thixotropic structure formation and define the processing parameters will be developed. Semisolid casting using the produced feedstock will lead to extensive knowledge about the effect of different microstructures and alloys on semisolid castability. Outcomes from the project will significantly advance the scientific understanding of the thixotropic structure generation and accelerate the development of semisolid processing technology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0882787
Funder
Australian Research Council
Funding Amount
$390,000.00
Summary
An Integrated Raman Microscope and in Situ STM-TEM Analysis System. The imaging and analytical capabilities of SEM and chemical and structural characterisation afforded by Raman spectroscopy will be unique, allowing both rapid morphological observation and elemental analysis at the macro and nanoscale. The in-situ TEM holder will further assist through in-situ characterization of advanced materials at the nano-scale level. In combination, these instruments will underpin groundbreaking research i ....An Integrated Raman Microscope and in Situ STM-TEM Analysis System. The imaging and analytical capabilities of SEM and chemical and structural characterisation afforded by Raman spectroscopy will be unique, allowing both rapid morphological observation and elemental analysis at the macro and nanoscale. The in-situ TEM holder will further assist through in-situ characterization of advanced materials at the nano-scale level. In combination, these instruments will underpin groundbreaking research in diverse research fields developing new advanced nanomaterials and bio-nanomaterials with significant impact on many industries with great economical and environmental benefits. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100006
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
X-ray Microscopy Facility for Imaging Geo-materials (XMFIG). The X-ray Microscopy Facility for Imaging Geo-Materials (XMFIG) will allow the investigation, with near-synchrotron capabilities, of the three dimensional internal structures and chemical compositions of geo-materials under relevant environmental conditions by engineers, geologists and materials scientists.
Innovative composite systems with enhanced resilience to extreme loads. The rapidly increasing global population (projected to be 9.8 billion by 2050) and global urbanisation have created a demand for the construction industry, thereby increasing the pressure on our planet’s limited resources for the construction industry. This high demand can yield detrimental effects to the environment due to the high carbon footprint of conventional construction materials, and is amplified by the threat of ac ....Innovative composite systems with enhanced resilience to extreme loads. The rapidly increasing global population (projected to be 9.8 billion by 2050) and global urbanisation have created a demand for the construction industry, thereby increasing the pressure on our planet’s limited resources for the construction industry. This high demand can yield detrimental effects to the environment due to the high carbon footprint of conventional construction materials, and is amplified by the threat of accidental or deliberate extreme loadings to buildings, which can trigger fatal progressive collapse events. The proposed project aims to develop an innovative structural system with that possesses superior structural resilience to extreme loads and progressive collapse using lightweight eco-friendly materials. 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
Fibre-Reinforced Timber for Novel Hybrid Folded Thin-Walled Structures. This project proposes novel manufacture and analysis methods for fibre-reinforced polymer (FRP) hybrid sections. FRP composites have gained wide acceptance within the civil engineering community. All-FRP systems typically use thin-walled profiles based on steel sections, but existing manufacturing technologies are unable to optimise material usage. Hybrid systems combine FRP with traditional materials for optimum structural ....Fibre-Reinforced Timber for Novel Hybrid Folded Thin-Walled Structures. This project proposes novel manufacture and analysis methods for fibre-reinforced polymer (FRP) hybrid sections. FRP composites have gained wide acceptance within the civil engineering community. All-FRP systems typically use thin-walled profiles based on steel sections, but existing manufacturing technologies are unable to optimise material usage. Hybrid systems combine FRP with traditional materials for optimum structural performance and so are often more economical than all-FRP systems. This project aims to develop an effective way to analyse, manufacture, and design FRP-based hybrid thin-walled structural members and optimise performance against buckling failure modes. The technology developed in this project would support the development of advanced low-cost FRP structural systems.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101598
Funder
Australian Research Council
Funding Amount
$357,446.00
Summary
Fire resistant and lightweight wall systems using innovative blocks. This project aims to develop an innovative block with lightweight and fire resistant characteristics by using Pumice and Perlite materials, followed by wall systems using the blocks. For this purpose, it will use material and thermal characterization studies, thermal and structural numerical models and fire tests of the new blocks, wall panels and a compartment. This project will generate new knowledge on lightweight blocks and ....Fire resistant and lightweight wall systems using innovative blocks. This project aims to develop an innovative block with lightweight and fire resistant characteristics by using Pumice and Perlite materials, followed by wall systems using the blocks. For this purpose, it will use material and thermal characterization studies, thermal and structural numerical models and fire tests of the new blocks, wall panels and a compartment. This project will generate new knowledge on lightweight blocks and fire safety, and develops cost-effective fire safe solutions for mid-rise buildings and bushfire safe rooms.Read moreRead less
Novel test and design methods for base course reinforced flexible pavements. This project aims to develop the mechanics of geosynthetic-reinforced flexible pavements as an urgent need for the Australian pavement industry to build more sustainable and economical roads. Novel laboratory test apparatus and in-situ test programs, and mathematical models will be developed, for the first time, to capture the responses of reinforced base courses in a complete and optimised way to determine the paramete ....Novel test and design methods for base course reinforced flexible pavements. This project aims to develop the mechanics of geosynthetic-reinforced flexible pavements as an urgent need for the Australian pavement industry to build more sustainable and economical roads. Novel laboratory test apparatus and in-situ test programs, and mathematical models will be developed, for the first time, to capture the responses of reinforced base courses in a complete and optimised way to determine the parameters for pavement design and performance evaluation. The outcomes will enable reliable prediction of reinforced pavement behaviour, leading to better-performing geosynthetic products and more resilient pavements, reduced material usage and damage in pavements, and less environmental impact and maintenance cost.Read moreRead less
Determinants and consequences of conscious visual awareness. Usually salient images can disappear from awareness without corresponding stimulus changes. This project is based on an innovative account linking such disappearances to a functional adaptation which facilitates vision in cluttered environments. Project completion will expand Australia's knowledge base, forge links between junior and senior Australian based investigators and provide excellent training opportunities. Publication of rese ....Determinants and consequences of conscious visual awareness. Usually salient images can disappear from awareness without corresponding stimulus changes. This project is based on an innovative account linking such disappearances to a functional adaptation which facilitates vision in cluttered environments. Project completion will expand Australia's knowledge base, forge links between junior and senior Australian based investigators and provide excellent training opportunities. Publication of research in top-ranking international journals will further promote Australian science abroad. Ultimately, this research will have implications for the design and implementation of artificial visual systems, which must overcome many of the same dilemmas faced by the human visual system in cluttered environments.Read moreRead less