Robustness-oriented and serviceable design of innovative modular buildings. This project aims to unlock the full potential of prefabricated modular buildings through innovative framing solutions in combination with new evaluation methods to enhance serviceability and improve safety under extreme events. Advanced 3D hybrid testing and analysis will be used to create new knowledge on the complex system-level dynamic behaviour of modular buildings. The expected outcome of this project will lead to ....Robustness-oriented and serviceable design of innovative modular buildings. This project aims to unlock the full potential of prefabricated modular buildings through innovative framing solutions in combination with new evaluation methods to enhance serviceability and improve safety under extreme events. Advanced 3D hybrid testing and analysis will be used to create new knowledge on the complex system-level dynamic behaviour of modular buildings. The expected outcome of this project will lead to safe, affordable, and environmentally sustainabe modular building construction. The project will provide significant benefits to designers, manufacturers and regulators to improve the resilience of the building stock and to support greater design and manufacturing innovations.Read moreRead less
Structural Protection of flywheel energy storage system . A flywheel energy storage system stores a large amount of energy in a rotating mass. Compared with other energy storage systems such as large-capacity batteries, the flywheel energy storage system features high power density, long lifespan, high efficiency and is carbon-free. Flywheel energy storage systems are typically constructed underground due to safety concerns from a potential rotor burst. In the present project, a high-performance ....Structural Protection of flywheel energy storage system . A flywheel energy storage system stores a large amount of energy in a rotating mass. Compared with other energy storage systems such as large-capacity batteries, the flywheel energy storage system features high power density, long lifespan, high efficiency and is carbon-free. Flywheel energy storage systems are typically constructed underground due to safety concerns from a potential rotor burst. In the present project, a high-performance confinement system is developed aiming at above-ground construction. The confinement systems which comprise low-carbon, rubberized concrete, energy-absorbing aluminum foam, and ductile steel cladding will allow for high-impact resistance, off-site prefabrication, and easy on-site installation. Read moreRead less
Computational MultiPhysics Analysis of 3D Structural Damage and Failure. This project aims to develop advanced modelling techniques to assess quantitatively, the impacts of environmental changes caused by climate on structures. New and existing structures need to be climate-resilient to sustain more frequent and hazardous climatic actions. Attention will focus on modelling structural damage caused by extreme loads and MultiPhysics mechanisms caused by climate change. The expected outcome is a ne ....Computational MultiPhysics Analysis of 3D Structural Damage and Failure. This project aims to develop advanced modelling techniques to assess quantitatively, the impacts of environmental changes caused by climate on structures. New and existing structures need to be climate-resilient to sustain more frequent and hazardous climatic actions. Attention will focus on modelling structural damage caused by extreme loads and MultiPhysics mechanisms caused by climate change. The expected outcome is a new computational tool that will benefit Australian society by facilitating more reliable assessments of risks associated with structural damage and failure. This is significant in the design of structures where effective measures to improve functionality can be implemented to add value to an asset's life-cycle management.Read moreRead less
Fire engineering of prefabricated structural systems of modular buildings. With the speed and cost benefits, modular construction is considered a game-changing solution in response to pandemics and natural disasters, and tackling the affordable housing crisis on a large scale. However, its uptake has been hindered due to recent fire incidents of modular buildings. This project aims to develop novel fire experiments and advanced modelling techniques to evaluate the fire performance of modular bui ....Fire engineering of prefabricated structural systems of modular buildings. With the speed and cost benefits, modular construction is considered a game-changing solution in response to pandemics and natural disasters, and tackling the affordable housing crisis on a large scale. However, its uptake has been hindered due to recent fire incidents of modular buildings. This project aims to develop novel fire experiments and advanced modelling techniques to evaluate the fire performance of modular buildings. Computational tools and fire safety design guidelines will also be developed to enable modular buildings to be built safer and more economically. This project will promote the widespread adoption of modular buildings to benefit end-users and the wider society, especially the housing sector and low-income households.Read moreRead less
Robust cement-based sensors for smart automation in future infrastructure. Infrastructural health and operation monitoring are core parts of managing built assets. The project aims to develop robust cement-based sensors with integrated self-sensing and hydrophobicity, and to optimise their robustness and resilience for smart automation in future infrastructure. The new sensors are expected to more accurately assess structural health, monitor traffic-flow, decrease the costs of operation and main ....Robust cement-based sensors for smart automation in future infrastructure. Infrastructural health and operation monitoring are core parts of managing built assets. The project aims to develop robust cement-based sensors with integrated self-sensing and hydrophobicity, and to optimise their robustness and resilience for smart automation in future infrastructure. The new sensors are expected to more accurately assess structural health, monitor traffic-flow, decrease the costs of operation and maintenance through enhanced piezoresistivity and serviceability, and gain insights into intrinsic self-sensing and integral water repellency. The outcomes will improve predictions of performance and service, with major reductions in asset management costs through significantly more-efficient operation and maintenance.Read moreRead less
Novel Hydrophobic Concrete for Durable and Resilient Mining Infrastructure. The mining field is harsh with various corrosive media that cause rapid deterioration and ageing of concrete. This project aims to develop a novel hydrophobic concrete with integrated water-proofing and self-healing capacities and optimise its efficacy and cost-effectiveness for durable and resilient mining infrastructure using hybrid water-repellent nanoparticles and raw crystalline admixtures. The new hydrophobic concr ....Novel Hydrophobic Concrete for Durable and Resilient Mining Infrastructure. The mining field is harsh with various corrosive media that cause rapid deterioration and ageing of concrete. This project aims to develop a novel hydrophobic concrete with integrated water-proofing and self-healing capacities and optimise its efficacy and cost-effectiveness for durable and resilient mining infrastructure using hybrid water-repellent nanoparticles and raw crystalline admixtures. The new hydrophobic concrete is expected to significantly improve structural safety, durability, and service life of mining infrastructure while simultaneously reducing protection costs, repair needs, and reconstruction. The outcomes will offer desirable benefits for Australia’s mining industry, with significant reductions in maintenance costs.Read moreRead less
Adaptive daytime radiative cooling and heating for buildings . This project aims to develop an adaptive daytime radiative cooling and heating technology suitable for the for the reduction of the energy consumption in buildings for the mitigation of the urban overheating in the built environment. The project expects to generate new knowledge in this area to exploit adaptive strategies in the development of future cooling and heating solutions for buildings. Expected project outcomes consist of th ....Adaptive daytime radiative cooling and heating for buildings . This project aims to develop an adaptive daytime radiative cooling and heating technology suitable for the for the reduction of the energy consumption in buildings for the mitigation of the urban overheating in the built environment. The project expects to generate new knowledge in this area to exploit adaptive strategies in the development of future cooling and heating solutions for buildings. Expected project outcomes consist of the establishment of the new adaptive daytime radiative technology for use on building envelopes to support cooling requirements in hot weather and heating needs under cold conditions. This should lead to significant benefits for the Australian building and construction industry. Read moreRead less
Composite clad steel-geopolymer concrete systems for resilient structures. This project aims to develop innovative clad steel-geopolymer concrete composite members that will significantly improve the safe and economical design and construction of civil engineering systems. The expected outcomes will result in improved durability which has become a key issue in the economic justification of civil engineering infrastructure systems. Fire resistance in multi-storey buildings will also be improved t ....Composite clad steel-geopolymer concrete systems for resilient structures. This project aims to develop innovative clad steel-geopolymer concrete composite members that will significantly improve the safe and economical design and construction of civil engineering systems. The expected outcomes will result in improved durability which has become a key issue in the economic justification of civil engineering infrastructure systems. Fire resistance in multi-storey buildings will also be improved through this project, and the coupled use of clad steel and geopolymer concrete in composite systems will reduce consumption and contribute toward Net-zero structural design. This will provide considerable benefits to Australian structural engineers and constructors in advancing their capability in composite construction.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100207
Funder
Australian Research Council
Funding Amount
$417,125.00
Summary
Next-generation system resilience-based design of infrastructure facilities. This project aims to develop a framework for system resilience-based design of infrastructure facilities. In Australia, the costs of natural disasters will rise to $33B per year by 2050 unless steps are taken to guarantee resilience. This project expects to quantify the impacts that structural deterioration, external hazards, and component interaction have on infrastructure resilience. Expected outcomes include new prac ....Next-generation system resilience-based design of infrastructure facilities. This project aims to develop a framework for system resilience-based design of infrastructure facilities. In Australia, the costs of natural disasters will rise to $33B per year by 2050 unless steps are taken to guarantee resilience. This project expects to quantify the impacts that structural deterioration, external hazards, and component interaction have on infrastructure resilience. Expected outcomes include new practices for resilience-based structural design, reflecting a next-generation evolution of design philosophy. Expected benefits stem from the development of novel decision-making tools for community planners and designers that will guarantee the resilience of infrastructure systems, and thus mitigate hazard-induced damage costs.Read moreRead less