Discovery Early Career Researcher Award - Grant ID: DE240100161
Funder
Australian Research Council
Funding Amount
$407,598.00
Summary
Translational Design: Product Development for Research Commercialisation. Australia is a world leader in fundamental research. Yet, ranks as one of the worst developed nations for translating research into new-to-market innovation. This project explores a new role for design as a critical component of research commercialisation and innovation ecosystems. It expects to contribute novel insights into how designers can be better integrated into interdisciplinary research directed towards commercial ....Translational Design: Product Development for Research Commercialisation. Australia is a world leader in fundamental research. Yet, ranks as one of the worst developed nations for translating research into new-to-market innovation. This project explores a new role for design as a critical component of research commercialisation and innovation ecosystems. It expects to contribute novel insights into how designers can be better integrated into interdisciplinary research directed towards commercial outcomes. Expected outcomes include a framework and toolkit for a paradigm-shifting design approach to translating fundamental research into products commercialised and manufactured in Australia. This should provide enhanced economic benefit, building Australia’s sovereign capability in new-to-market innovation.Read moreRead less
Play about Place: Expanding the impact of Creative Placemaking after COVID. This project aims to establish a new approach to placemaking through the development of urban play projects. The project expects to generate affordable and engaging experiences that activate existing public spaces, a typology and methodology for analysing the impacts of urban play, and a comparative study of urban play in Melbourne and Christchurch. Expected outcomes include creative placemaking strategies and projects, ....Play about Place: Expanding the impact of Creative Placemaking after COVID. This project aims to establish a new approach to placemaking through the development of urban play projects. The project expects to generate affordable and engaging experiences that activate existing public spaces, a typology and methodology for analysing the impacts of urban play, and a comparative study of urban play in Melbourne and Christchurch. Expected outcomes include creative placemaking strategies and projects, a connected impact study, and an industry resource for local government outlining our approach. This should provide significant benefits, including First Peoples storytelling experiences, city activation post-pandemic, community engagement, the potential to create jobs and provide economic and social benefit for Australia.Read moreRead less
Developing innovative concrete composites by upscaling material properties. This project aims to develop an upscaling process to correlate micro-nano properties of engineering materials to their comprehensive physicochemical properties based on systematic mechanical and statistical analysis approaches and nanoindentation technology. The process will enable assessing material mechanical and viscoelastic properties at a microscale level thus will generate a new knowledge in structural engineering ....Developing innovative concrete composites by upscaling material properties. This project aims to develop an upscaling process to correlate micro-nano properties of engineering materials to their comprehensive physicochemical properties based on systematic mechanical and statistical analysis approaches and nanoindentation technology. The process will enable assessing material mechanical and viscoelastic properties at a microscale level thus will generate a new knowledge in structural engineering discipline including health monitoring, assessment of existing structures, historical buildings, and strengthening and repairing materials in structures. The outcomes are a multiscale link model for upscaling material properties and a development of innovative reinforced concrete composites which are cost-effective and efficient.Read moreRead less
Performance based assessment of building cladding against hailstorms. Hailstorms cause billions of dollars of damage in Australia and hailstorm events are increasing in frequency with climate change. Robust cladding to resist extreme weather events is imperative for new and existing building stock. This project will develop technology to accurately assess the performance of aluminium cladding, glass facades and skylights under severe hailstorm events. The research outcomes will enable cost-effec ....Performance based assessment of building cladding against hailstorms. Hailstorms cause billions of dollars of damage in Australia and hailstorm events are increasing in frequency with climate change. Robust cladding to resist extreme weather events is imperative for new and existing building stock. This project will develop technology to accurately assess the performance of aluminium cladding, glass facades and skylights under severe hailstorm events. The research outcomes will enable cost-effective design of robust cladding solutions and the evaluation of the performance of existing cladding. This will benefit asset managers, homeowners, the insurance industry and the building and construction industry, and help save billions of dollars of economic loss.Read moreRead less
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
Design Optimisation and Advanced Manufacturing of Structural Connections. This project aims to establish a new approach to designing and fabricating complex connections in spatial structures by taking advantage of latest technologies in topological optimisation and additive manufacturing. The project intends to develop new optimisation algorithms considering special constraints of additive manufacturing and to determine a cost-effective process for fabricating large metal connections. Expected o ....Design Optimisation and Advanced Manufacturing of Structural Connections. This project aims to establish a new approach to designing and fabricating complex connections in spatial structures by taking advantage of latest technologies in topological optimisation and additive manufacturing. The project intends to develop new optimisation algorithms considering special constraints of additive manufacturing and to determine a cost-effective process for fabricating large metal connections. Expected outcomes of the project include a new methodology and an advanced digital design tool, validated by experiments, for designing and fabricating efficient structural components. This should provide significant benefits to the construction industry in terms of performance enhancement, weight reduction and waste minimisation.Read moreRead less
Bayesian back analysis for settlement prediction of soft soils. The settlement of road embankments built on soft soils can take many years which has created additional challenges for road design and construction. Despite many years of experience with the Pacific Highway Upgrade, industry partners have seen many examples where embankments have settled more than expected during construction and after road opening. This causes potential delay delivering projects, ponding, potential aquaplaning and ....Bayesian back analysis for settlement prediction of soft soils. The settlement of road embankments built on soft soils can take many years which has created additional challenges for road design and construction. Despite many years of experience with the Pacific Highway Upgrade, industry partners have seen many examples where embankments have settled more than expected during construction and after road opening. This causes potential delay delivering projects, ponding, potential aquaplaning and unexpected maintenance. This project aims at developing useful tools for industry to better predict the settlement of embankment built on soft soils. The intended outcomes can help to increase the safety level of road transportation system of Australia, reduce construction and maintenance costs.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100217
Funder
Australian Research Council
Funding Amount
$408,000.00
Summary
Facade fire failures in buildings: a robust nanocomposite solution. This project aims to develop an innovative fire resistant composite façade system which is also strong, lightweight, thermally efficient, environmentally friendly and cost-effective. The project expects to develop new knowledge in areas of fire safety and advanced manufacturing of a nanocomposite facade utilising advanced computational fluid dynamics simulations to model the external flame spread. The outcomes will provide impro ....Facade fire failures in buildings: a robust nanocomposite solution. This project aims to develop an innovative fire resistant composite façade system which is also strong, lightweight, thermally efficient, environmentally friendly and cost-effective. The project expects to develop new knowledge in areas of fire safety and advanced manufacturing of a nanocomposite facade utilising advanced computational fluid dynamics simulations to model the external flame spread. The outcomes will provide improved insight into the mechanism of external fire spread and development of the façade system which is safe, resilient and fire resistant. This work will be useful for building owners, construction authorities and researchers to tackle the global issues of combustible façades and provide better fire design strategies to protect occupants.Read moreRead less
Pile foundations in unsaturated soils: a mechanistic framework. This project will develop a mechanistic approach to pile foundation design in variably saturated soils through integrated expertise in the fields of unsaturated soil mechanics, material nonlinearity, numerical modelling, limit analysis and experimental investigation. It will achieve a rigorous understanding of pile behaviour in unsaturated
soils subjected to monotonic loading through a comprehensive program of scaled laboratory test ....Pile foundations in unsaturated soils: a mechanistic framework. This project will develop a mechanistic approach to pile foundation design in variably saturated soils through integrated expertise in the fields of unsaturated soil mechanics, material nonlinearity, numerical modelling, limit analysis and experimental investigation. It will achieve a rigorous understanding of pile behaviour in unsaturated
soils subjected to monotonic loading through a comprehensive program of scaled laboratory testing, numerical and theoretical analyses. The models, theories, mechanics and predictive tools arising from this research will have direct and immediate impact on the planning, design, construction and management of many types of infrastructure involving pile foundations in industrial and residential developments.Read moreRead less
Bottom-up multiscale modelling of expansive soils in natural environments . Expansive soils, highly sensitive to the environment, undergo dramatic strength and volume changes. This project aims to advance our understanding of expansive soils under different temperatures, hydraulic conditions, mechanical loads, and aqueous salinities. The project expects to use a combination of multidisciplinary knowledge, multiscale experiments and numerical simulations. The outcomes are a new multiscale model a ....Bottom-up multiscale modelling of expansive soils in natural environments . Expansive soils, highly sensitive to the environment, undergo dramatic strength and volume changes. This project aims to advance our understanding of expansive soils under different temperatures, hydraulic conditions, mechanical loads, and aqueous salinities. The project expects to use a combination of multidisciplinary knowledge, multiscale experiments and numerical simulations. The outcomes are a new multiscale model and advanced analysis/design tool for evaluating the performance of expansive soils under different conditions. The outcomes should provide the efficient way to mitigate the significant damage caused to infrastructure by expansive soils and facilitate the application of expansive soil products in waste disposal systems.Read moreRead less