Discovery Early Career Researcher Award - Grant ID: DE190100113
Funder
Australian Research Council
Funding Amount
$420,437.00
Summary
Interactions between volumetric units in modular buildings. This project aims to develop an in-depth understanding of the interactions between volumetric units in modular buildings to develop integration strategies for the interconnection of modules. The uptake of modular construction has been hindered by the technical complexities of the design process for manufacture and assembly, in particular the flexible connection of services. By addressing significant gaps in the guidance on the design of ....Interactions between volumetric units in modular buildings. This project aims to develop an in-depth understanding of the interactions between volumetric units in modular buildings to develop integration strategies for the interconnection of modules. The uptake of modular construction has been hindered by the technical complexities of the design process for manufacture and assembly, in particular the flexible connection of services. By addressing significant gaps in the guidance on the design of modular interconnections and their integration strategies, this project expects to enhance the industry’s capacity to adopt safe, economical and standardised designs of modular systems. This project should significantly reduce the risk in decision making in modular construction, and transformation to advanced building manufacturing technologies in Australia and beyond.Read moreRead less
Analysis and design of midrise built-up cold-formed steel structures. The project will develop an analytical and computational basis for designing midrise buildings in cold-formed steel. It will enable solutions with high column capacities and high lateral load resistance to be realised by using built-up sections, thus overcoming the current barrier to constructing buildings up to 10 storeys from cold-formed steel and enabling green, fully recyclable and rapidly constructed buildings to be achie ....Analysis and design of midrise built-up cold-formed steel structures. The project will develop an analytical and computational basis for designing midrise buildings in cold-formed steel. It will enable solutions with high column capacities and high lateral load resistance to be realised by using built-up sections, thus overcoming the current barrier to constructing buildings up to 10 storeys from cold-formed steel and enabling green, fully recyclable and rapidly constructed buildings to be achieved. Experimental, analytical and computational studies will be undertaken and synthesised into efficient design guidelines for practising engineers, including structural reliability analyses at system level of midrise buildings featuring innovative built-up multi-section columns and integrated shear panels.Read moreRead less
Improved seismic resilience against life-safety hazard of masonry buildings. This project aims to develop a cost-effective technique to mitigate the safety risk posed by the many unreinforced brick masonry parapets and walls which are vulnerable to seismic shock. Every Australian city has many streets lined with older unreinforced brick masonry buildings (now cafes, pubs, boutique shops) which feature parapets. The project will provide benefits to society by reducing the potential for parapet co ....Improved seismic resilience against life-safety hazard of masonry buildings. This project aims to develop a cost-effective technique to mitigate the safety risk posed by the many unreinforced brick masonry parapets and walls which are vulnerable to seismic shock. Every Australian city has many streets lined with older unreinforced brick masonry buildings (now cafes, pubs, boutique shops) which feature parapets. The project will provide benefits to society by reducing the potential for parapet collapse and therefore reduce the total number of fatalities in an earthquake. Building owners and engineers will be benefit from the design guidance provided by this project, which will lead to a suite of fully-tested and low-cost retrofit techniques.Read moreRead less
Building A Better Built Environment for Older Australian's Ageing-in-place. Most older Australians prefer to age in place after their retirement. This project aims to understand how the built environment as a comprehensive system supports (or hinders) their ageing-in-place given that the existing Australian built environment fails to meet older Australians' requirements for independent living. This project expects to generate new knowledge in the area of ageing-friendly communities using Bayesia ....Building A Better Built Environment for Older Australian's Ageing-in-place. Most older Australians prefer to age in place after their retirement. This project aims to understand how the built environment as a comprehensive system supports (or hinders) their ageing-in-place given that the existing Australian built environment fails to meet older Australians' requirements for independent living. This project expects to generate new knowledge in the area of ageing-friendly communities using Bayesian Network analysis and interactive design charrettes. Expected outcomes include an evidence-based Bayesian network model that determines how the built environment affects independent living in the community and design innovation and guidelines to improve the built environment design for older Australians' ageing-in-place.Read moreRead less
New Systems for High Rise Steel Structures in Rising Factory Construction. This project will develop new and innovative ways of constructing steel structures using the rising factory concept. The rising factory is a 10 storey enclosure where the final high-rise building is safely constructed within a watertight envelope which rises as the building progresses. The project will perform the necessary research to make possible high-rise steel structural systems consisting of hot-rolled (heavy gauge ....New Systems for High Rise Steel Structures in Rising Factory Construction. This project will develop new and innovative ways of constructing steel structures using the rising factory concept. The rising factory is a 10 storey enclosure where the final high-rise building is safely constructed within a watertight envelope which rises as the building progresses. The project will perform the necessary research to make possible high-rise steel structural systems consisting of hot-rolled (heavy gauge) and cold-formed (light gauge) steel structural members and connections which can be used in the rising factory. The main benefits of the rising factory are the waterproof construction environment and the substantially increased safety as a result of no external cranes.
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Safety and robustness of tall timber buildings under extreme dynamic events. This project aims to develop innovative and robust structural connections in tall mass timber buildings by characterising their mechanical behaviour under dynamic loads induced by extreme events like earthquakes or progressive collapse. This project expects to generate new knowledge in the safe, economic, and efficient design of mass timber buildings. Expected outcomes of this project include enhanced robustness design ....Safety and robustness of tall timber buildings under extreme dynamic events. This project aims to develop innovative and robust structural connections in tall mass timber buildings by characterising their mechanical behaviour under dynamic loads induced by extreme events like earthquakes or progressive collapse. This project expects to generate new knowledge in the safe, economic, and efficient design of mass timber buildings. Expected outcomes of this project include enhanced robustness design guidelines for the engineering community. This should lead to significant benefits, such as contributing to uptake of viable low-cost timber housing solutions in response to population growth and contributing to net zero emissions in Australia by 2050, and transition to safer and resilient infrastructure in urban development.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
Averting Disaster: New Ways to Assess Bushfire Risk and Building Integrity. This project aims to develop a new method of assessing bushfire risk and building integrity using drone-based advanced technologies and computational fluid dynamics based heat transfer modelling for buildings located in bushfire prone areas. This coupled approach will enable the evaluation of bushfire effects on buildings and provide pre-bushfire condition/risk assessments, and site-specific cost-effective remedial actio ....Averting Disaster: New Ways to Assess Bushfire Risk and Building Integrity. This project aims to develop a new method of assessing bushfire risk and building integrity using drone-based advanced technologies and computational fluid dynamics based heat transfer modelling for buildings located in bushfire prone areas. This coupled approach will enable the evaluation of bushfire effects on buildings and provide pre-bushfire condition/risk assessments, and site-specific cost-effective remedial actions to reduce or eliminate bushfire damage and mitigate the risks pre-bushfire season. The new method will be applied to three selected buildings through which further enhancements and validations can be achieved. This project will showcase how the selected buildings and their components can be made bushfire safe.Read moreRead less
Co-Design Guide for Transforming Ageing Apartment Buildings. The project aims to unlock the redevelopment potential of ageing apartment housing by developing a co-design process to enable transformative redesign to become a mainstream redevelopment option in partnership with leaders in the emerging practices of transformative redesign. The outcomes will be a conceptual framework and practical guide to realise sustainable housing futures beyond demolition. This will benefit the Australian environ ....Co-Design Guide for Transforming Ageing Apartment Buildings. The project aims to unlock the redevelopment potential of ageing apartment housing by developing a co-design process to enable transformative redesign to become a mainstream redevelopment option in partnership with leaders in the emerging practices of transformative redesign. The outcomes will be a conceptual framework and practical guide to realise sustainable housing futures beyond demolition. This will benefit the Australian environment, economy and society by changing thinking around sustainable delivery of housing, creating new industries and services in the construction sector, and facilitating the effective transformation of old buildings into attractive spaces that add value for residents, neighbourhoods and cities.Read moreRead less
Outcomes of specialist disability housing for people with disability. This project aims to systematically investigate the experience, outcomes and economic impact of people with disability moving into specialist disability accommodation housing. Health, wellbeing, community participation, support outcomes and lived experience of people with disability will be measured before moving and over 2 years after they move. The project provides the opportunity to identify the personal, disability, housi ....Outcomes of specialist disability housing for people with disability. This project aims to systematically investigate the experience, outcomes and economic impact of people with disability moving into specialist disability accommodation housing. Health, wellbeing, community participation, support outcomes and lived experience of people with disability will be measured before moving and over 2 years after they move. The project provides the opportunity to identify the personal, disability, housing and support factors that shape outcomes for people with disability. The intended outcome is comprehensive knowledge that can inform policy, build evidence across housing, technology, support and disability sectors and ultimately benefit people with disability by generating innovative practice in housing and support.Read moreRead less