An innovative light weight composite panel system for high speed modular construction. This project aims to develop an innovative composite panel system using aerated geopolymer and a thin high strength steel casing. The new panel system aims to have a number of significant enhancements compared to traditional panels in terms of load resistance, much lower carbon footprint and life-cycle costs. It aims to offer desirable properties, such as being light-weight, easy to construct, economical, recy ....An innovative light weight composite panel system for high speed modular construction. This project aims to develop an innovative composite panel system using aerated geopolymer and a thin high strength steel casing. The new panel system aims to have a number of significant enhancements compared to traditional panels in terms of load resistance, much lower carbon footprint and life-cycle costs. It aims to offer desirable properties, such as being light-weight, easy to construct, economical, recyclable and reusable. A significant gap in knowledge exists in the material and system behaviour of the aerated geopolymer and its fire performance. It is intended that a comprehensive research program will be carried out to address those challenges and to provide design guidelines to rapidly progress these technologies in Australia and overseas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100138
Funder
Australian Research Council
Funding Amount
$235,000.00
Summary
National Drop Weight Impact Testing Facility. National drop weight impact testing facility:
The national drop weight impact testing facility aims to enable dynamic tests on geo- and construction materials and systems. This facility aims to provide state-of-the-art technology to observe the real-time behaviour of elements and sub-assemblies under combined quasi-static and impact loading. Understanding material behaviour under dynamic loading is essential in dealing with many engineering problems ....National Drop Weight Impact Testing Facility. National drop weight impact testing facility:
The national drop weight impact testing facility aims to enable dynamic tests on geo- and construction materials and systems. This facility aims to provide state-of-the-art technology to observe the real-time behaviour of elements and sub-assemblies under combined quasi-static and impact loading. Understanding material behaviour under dynamic loading is essential in dealing with many engineering problems. The facility may advance understanding of the fundamental behaviour of critical infrastructure exposed to impact loading and will foster innovations in design and construction. Applications may include improvement of the structural safety of infrastructure including railway networks, tunnels and bridges, and also the development of cost-effective and environmentally friendly building and construction materials. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100646
Funder
Australian Research Council
Funding Amount
$408,000.00
Summary
Active rheology control of fresh concrete using responsive additives. This project aims to investigate innovative techniques for Active Rheology Control (ARC) of concretes using responsive additives interacting with externally applied electromagnetic or temperature signals. ARC is a new concept which will revolutionise concrete pumping by overcoming limitations such as frequent pipe blockages. ARC will also be useful to solve the major barrier faced by 3D concrete printing (3DCP) from becoming a ....Active rheology control of fresh concrete using responsive additives. This project aims to investigate innovative techniques for Active Rheology Control (ARC) of concretes using responsive additives interacting with externally applied electromagnetic or temperature signals. ARC is a new concept which will revolutionise concrete pumping by overcoming limitations such as frequent pipe blockages. ARC will also be useful to solve the major barrier faced by 3D concrete printing (3DCP) from becoming a practical way of construction. 3DCP is an emerging idea for construction but a major barrier is that concrete needs to flow during pumping and extrusion but become stiff soon after placement. This project will explore ARC for achieving the “flow-on-demand” desired by both concrete pumping and 3DCP applications.Read moreRead less
Lightweight, durable and self-sustainable modular composites buildings. This project aims to establish a modular composites building system that is lightweight, integrated with power supply system and is highly resistant to harsh environments. Buildings today are designed and constructed using conventional craft-based labour-intensive methods and materials. This results in high cost and consequences for quality, safety, resource and environmental impact. By developing the modular building system ....Lightweight, durable and self-sustainable modular composites buildings. This project aims to establish a modular composites building system that is lightweight, integrated with power supply system and is highly resistant to harsh environments. Buildings today are designed and constructed using conventional craft-based labour-intensive methods and materials. This results in high cost and consequences for quality, safety, resource and environmental impact. By developing the modular building system using lightweight and durable fibre reinforced polymer (FRP) composites and innovative connection methods for fast assembly, the project outcomes can largely lift productivity in construction industry and further provide self-sustainable civil infrastructure not only in urban and rural regions but also in remote areas.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100101
Funder
Australian Research Council
Funding Amount
$744,697.00
Summary
New generation facility for impact testing. This project aims to develop a new generation, national-impact testing facility to study the impact response of civil and mechanical structures and components. This project expects to seek simultaneous, realistic impact scenarios with very high velocities, which were previously impossible. This will enhance the capability for innovative research on real-time behaviour of components/systems under high amplitude impacts to augment their protection throug ....New generation facility for impact testing. This project aims to develop a new generation, national-impact testing facility to study the impact response of civil and mechanical structures and components. This project expects to seek simultaneous, realistic impact scenarios with very high velocities, which were previously impossible. This will enhance the capability for innovative research on real-time behaviour of components/systems under high amplitude impacts to augment their protection through advanced materials. This project is essential for research on rational design philosophies and effective retrofitting of high-risk buildings, infrastructure and armoured vehicles. Benefits include the saving of lives and property through new knowledge from credible impact testing.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
Optimization of internal pressure for designing industrial buildings. The project seeks to understand the internal pressure in a building during windstorms, to improve safety and performance. The internal pressure in a building is dependent on its volume and flexibility and the sizes of openings in the building envelope, and is a critical loading parameter in building design. Windstorm damage investigations have shown that incorrect internal pressures are frequently used in building design, lead ....Optimization of internal pressure for designing industrial buildings. The project seeks to understand the internal pressure in a building during windstorms, to improve safety and performance. The internal pressure in a building is dependent on its volume and flexibility and the sizes of openings in the building envelope, and is a critical loading parameter in building design. Windstorm damage investigations have shown that incorrect internal pressures are frequently used in building design, leading to damage. This project aims to study the internal pressures generated in buildings with a range of volumes and openings in the envelope. A combination of model-scale and full-scale tests and theoretical analysis are planned to determine critical parameters for highly turbulent air-flow though openings. Results will inform the revision of design data in codes and of guidelines for consistent, optimal design of buildings.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100168
Funder
Australian Research Council
Funding Amount
$458,000.00
Summary
Three-dimensional concrete printing facility. This project aims to develop concrete types of construction materials and structural forms. Three-dimensional concrete printing is a process for construction automation, and adapting recent advances in Additive Manufacturing technologies makes rapid progress possible. However, unsuitable concrete and structural designs and a lack of underpinning material and structural research hamper development. The project will test material properties, fabricatio ....Three-dimensional concrete printing facility. This project aims to develop concrete types of construction materials and structural forms. Three-dimensional concrete printing is a process for construction automation, and adapting recent advances in Additive Manufacturing technologies makes rapid progress possible. However, unsuitable concrete and structural designs and a lack of underpinning material and structural research hamper development. The project will test material properties, fabrication technologies and structural design concepts; and build and test freeform concrete structures. Achieving construction automation is expected to reduce injury rates by eliminating dangerous jobs, create high-end technology-based jobs, and make concrete construction cheaper by eliminating formwork.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101512
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Behaviour of novel FRP-timber composite thin-walled structural members. This project aims to investigate the structural behaviour of innovative hybrid Fibre Reinforced Polymer - Timber Composite (FRPTC) sections manufactured from small 'sawlog' timber. These FRPTC sections are made by taking advantage of the orthotropic material properties and, unlike sawn timber, these structures have efficient cross sectional shapes and can be made easily in different sizes to match the requirements. Even thou ....Behaviour of novel FRP-timber composite thin-walled structural members. This project aims to investigate the structural behaviour of innovative hybrid Fibre Reinforced Polymer - Timber Composite (FRPTC) sections manufactured from small 'sawlog' timber. These FRPTC sections are made by taking advantage of the orthotropic material properties and, unlike sawn timber, these structures have efficient cross sectional shapes and can be made easily in different sizes to match the requirements. Even though preliminary studies have shown promising results, behaviour of these FRPTC sections are not yet fully understood. This project aims to investigate the behaviour of these novel FRPTC sections and to develop numerical models to allow wide usage of these sections.Read moreRead less
Behaviour of novel FRP-timber ultralight thin-walled structural members. This project aims to investigate the structural behaviour of innovative hybrid fibre reinforced polymer–timber composite (FRPTC) thin-walled members which could be used as structural members in roof systems, façade systems, floor systems, etc. These FRPTC sections are made by taking advantage of the orthotropic material properties. Unlike sawn timber, these structures have efficient cross-sectional shapes and can be made ea ....Behaviour of novel FRP-timber ultralight thin-walled structural members. This project aims to investigate the structural behaviour of innovative hybrid fibre reinforced polymer–timber composite (FRPTC) thin-walled members which could be used as structural members in roof systems, façade systems, floor systems, etc. These FRPTC sections are made by taking advantage of the orthotropic material properties. Unlike sawn timber, these structures have efficient cross-sectional shapes and can be made easily in different sizes to match the requirements. Preliminary studies have shown promising results, however the behaviour of these novel FRPTC members is not yet fully understood. This project aims to investigate the behaviour of these novel FRPTC thin-walled members, specifically Cee-section members.Read moreRead less