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
Industrial Transformation Research Hubs - Grant ID: IH150100030
Funder
Australian Research Council
Funding Amount
$1,577,087.00
Summary
ARC Research Hub to Transform Future Tall Timber Buildings. ARC Research Hub for Advanced Solutions to Transform Tall Timber Buildings. This hub aims to develop skills, knowledge and resources for novel designs of tall timber buildings that incorporate architectural, engineering and sustainability drivers while meeting regulatory constraints. The project aims to develop innovative engineering solutions that address crucial barriers to the use of structural timber in the fast growing and extensiv ....ARC Research Hub to Transform Future Tall Timber Buildings. ARC Research Hub for Advanced Solutions to Transform Tall Timber Buildings. This hub aims to develop skills, knowledge and resources for novel designs of tall timber buildings that incorporate architectural, engineering and sustainability drivers while meeting regulatory constraints. The project aims to develop innovative engineering solutions that address crucial barriers to the use of structural timber in the fast growing and extensive medium-rise tall buildings market where timber is, on many counts, the ideal construction material. It is expected that eliminating these barriers will open a new market for novel technologies and methods generated through this work.Read moreRead less
Novel bioderived and biodegradable wood plastic composites from wastes. This project pioneers the development of high performance wood plastic composites from polyhydroxyalkanoates (PHAs) generated from pulp and paper waste. The key innovations are: developing a new bioderived and biodegradable high performance wood fibre composite with improved melt flow leading to better binding; and making direct use of PHA-rich biomass so avoiding the cost and environmental burden of polymer extraction. The ....Novel bioderived and biodegradable wood plastic composites from wastes. This project pioneers the development of high performance wood plastic composites from polyhydroxyalkanoates (PHAs) generated from pulp and paper waste. The key innovations are: developing a new bioderived and biodegradable high performance wood fibre composite with improved melt flow leading to better binding; and making direct use of PHA-rich biomass so avoiding the cost and environmental burden of polymer extraction. The project aims to lead to new products and more diverse markets for the Australian forestry industry and maximise Australia’s competitive advantage in biomass-based product development.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH220100016
Funder
Australian Research Council
Funding Amount
$2,959,803.00
Summary
ARC Research Hub to Advance Timber for Australia’s Future Built Environment. This project aims to transform Australia’s timber and construction sectors by stimulating rapid growth in timber innovation and uptake of use of timber in buildings. It plans to enable this transformation by addressing the diverse elements required to motivate investment, stimulate innovation, satisfy stakeholder demands, define long-term social-environmental-economic benefits and establish a roadmap for change. The exp ....ARC Research Hub to Advance Timber for Australia’s Future Built Environment. This project aims to transform Australia’s timber and construction sectors by stimulating rapid growth in timber innovation and uptake of use of timber in buildings. It plans to enable this transformation by addressing the diverse elements required to motivate investment, stimulate innovation, satisfy stakeholder demands, define long-term social-environmental-economic benefits and establish a roadmap for change. The expected outcomes will kickstart the change process, supported by growth in advanced manufacturing across the value chain. This should provide significant benefits in stimulating an opportunity for regional development and resource diversification whilst helping the sectors transition to a circular and net-zero economy.Read moreRead less
Industrial Transformation Research Hubs - Grant ID: IH170100020
Funder
Australian Research Council
Funding Amount
$2,641,142.00
Summary
ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced mate ....ARC Research Hub for Processing Lignocellulosics into High Value Products. The ARC Research Hub for Processing Lignocellulosics into High Value Products aims to convert renewable and readily-available biomass material and waste streams from the Australian Pulp, Paper and Forest Industry into new, high-value products that are in high demand in existing and developing markets. The Research Hub will translate leading scientific discoveries in biomass conversion into the manufacture of advanced materials that can be used in the industries of the future. Research aims to identify new applications and products. They will be derived from lignocellulose through the advent of new smart paper packaging, green chemical and materials with unique properties. Benefits will flow to the pharmaceutical, chemicals, plastics and food packaging industries.Read moreRead less
Development of alternative barriers for protection of wooden structures from termites. This research aims to develop alternative barriers to those currently used for protection of wooden structures against termites. Barriers are essential to protect wooden structures. The current application of low persistence chemicals has proven to be unreliable since organochlorines were phased out. The cost of building and structural replacements due to termite damage in Australia amounts to millions of doll ....Development of alternative barriers for protection of wooden structures from termites. This research aims to develop alternative barriers to those currently used for protection of wooden structures against termites. Barriers are essential to protect wooden structures. The current application of low persistence chemicals has proven to be unreliable since organochlorines were phased out. The cost of building and structural replacements due to termite damage in Australia amounts to millions of dollars annually and will increase due to eventual failure of the organochlorine termiticides. Thus the proposed research seeks to evaluate polymer materials and coatings, including bonded materials as alternate barriers together with an assessment of risks to environment and health.Read moreRead less
Tough bio-derived and biodegradable wood plastic composites. This project aims for the development of tough bio-based and biodegradable wood plastic composites (WPCs), directly addressing a key end-user demand that performance of bio-WPCs must be at least comparable with existing commercial WPCs. The project expects to generate key innovations such as developing a new, high performance, bio-based and biodegradable WPC by incorporating native spinifex-derived nano-cellulose fibres, ensuring excel ....Tough bio-derived and biodegradable wood plastic composites. This project aims for the development of tough bio-based and biodegradable wood plastic composites (WPCs), directly addressing a key end-user demand that performance of bio-WPCs must be at least comparable with existing commercial WPCs. The project expects to generate key innovations such as developing a new, high performance, bio-based and biodegradable WPC by incorporating native spinifex-derived nano-cellulose fibres, ensuring excellent, molecular-level dispersion with a novel low-cost and energy-efficient wet-mix technology. This will provide significant benefits as it will lead to new products and markets for the Australian forestry industry and for rural and indigenous Australia, maximising Australia’s competitive advantage in biomass-derived products.Read moreRead less
Offsite manufacture reimagined for high-performance adaptable housing. The project aims to address housing performance and affordability in Australia by deploying adaptable design for spatial reconfiguration and component reuse, to advance offsite timber manufacture towards energy efficient and healthy homes as mainstream practice. The intended outcome is the development, prototyping and monitoring of an offsite manufactured panelised lightweight timber system for high-performance homes, that is ....Offsite manufacture reimagined for high-performance adaptable housing. The project aims to address housing performance and affordability in Australia by deploying adaptable design for spatial reconfiguration and component reuse, to advance offsite timber manufacture towards energy efficient and healthy homes as mainstream practice. The intended outcome is the development, prototyping and monitoring of an offsite manufactured panelised lightweight timber system for high-performance homes, that is adaptable to all Australian climates and long-term household changes. This will contribute to the sustainable growth of the Australian housing market with significant benefits on housing affordability, adaptable design and long-lasting performance, while boosting the offsite manufactured timber construction sector.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL170100014
Funder
Australian Research Council
Funding Amount
$3,275,680.00
Summary
Light-Induced chemical modularity: a new frontier in macromolecular design. This project aims to develop powerful light-driven chemistries for the modular construction of advanced macromolecular materials. The expected outcome is a versatile, light-based precision macromolecular synthetic technology platform, enabling critical advances in soft matter material design and synthesis, ranging from selectivity control of chemical reactions and information-coded and biomimetic light-responsive macromo ....Light-Induced chemical modularity: a new frontier in macromolecular design. This project aims to develop powerful light-driven chemistries for the modular construction of advanced macromolecular materials. The expected outcome is a versatile, light-based precision macromolecular synthetic technology platform, enabling critical advances in soft matter material design and synthesis, ranging from selectivity control of chemical reactions and information-coded and biomimetic light-responsive macromolecules to advanced functional photoresists for 3D laser lithography as well as materials that self-report structural transformations by light or are reprogrammable in their properties by photonic fields. Harnessing the power of light as a precision tool for the construction of advanced macromolecular materials will provide technology outcomes for Australian manufacturing industries from electronics to health. This includes laser-driven 3D printing technology at the nano-level, light-adaptive smart reprogrammable coatings and materials, synthetic proteins responsive to light as well as tailor-made single cell niches.Read moreRead less