Bifurcation analysis with applications to design of power electronics systems. This project represents a fundamental study of nonlinear dynamics in power electronics systems. We expect that this project will result in knowledge advancement and technological innovations. In particular, rigorous algorithms will be resulted for the identification and analysis of nonlinear phenomena in power electronics systems. Special attention will be paid to design applications of power electronics systems. The ....Bifurcation analysis with applications to design of power electronics systems. This project represents a fundamental study of nonlinear dynamics in power electronics systems. We expect that this project will result in knowledge advancement and technological innovations. In particular, rigorous algorithms will be resulted for the identification and analysis of nonlinear phenomena in power electronics systems. Special attention will be paid to design applications of power electronics systems. The successful implementation of these methods and algorithms will definitely lead to development of frontier technology in engineering science, which is a National Priority Goal. Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC150100023
Funder
Australian Research Council
Funding Amount
$4,000,000.00
Summary
ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. This training centre aims to unlock the potential for growth of Australia’s prefabricated building industry by creating a sustainable training ecosystem including both industry and universities. It seeks to enable the next generation of engineers and architects to apply advanced manufacturing principles to prefabricated modular buildings. This emerging ....ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. ARC Training Centre for Advanced Manufacturing of Prefabricated Housing. This training centre aims to unlock the potential for growth of Australia’s prefabricated building industry by creating a sustainable training ecosystem including both industry and universities. It seeks to enable the next generation of engineers and architects to apply advanced manufacturing principles to prefabricated modular buildings. This emerging highly trained workforce, driven by the needs of the customer, should identify innovations in the use of advanced materials, designs for manufacturing, and assembly. The centre aims to secure a competitive advantage for Australia in the global value chain leading to local employment growth and increased exports of prefabricated products and services.Read moreRead less
The design and construction of quality, sustainable and affordable pre-made housing in Australia - optimisation and integration. Historically, industrialised construction has resulted in an industrialisation of the parts, rather than an industrialisation of the ensemble. In contrast, this project will integrate architecture and engineering, as well as construction and development to optimise the ensemble, and deliver architectural quality in industrially produced affordable housing.
New technology for designing advanced surface textures. This project aims to develop new methods for the characterisation of advanced textures to aid the manufacturing industry. There is an increasing demand for surfaces with various texture patterns manufactured by modern industry. Thus, novel texture characterisation methods are needed. New methods will allow for optimisation of surface textures for example for improved energy efficiency, bone growth in artificial implants, and others.
Rational lateral-bracing design for steel-framed domestic structures. For the 150,000 new Australian houses built annually to remain safe, despite expected increases in structural loading due to climate change, rational design approaches are desperately needed. This project will provide the industry with the necessary tools to develop optimised and innovative solutions to brace houses for extreme events and yet maintain affordability.
Retrofitted brick masonry buildings - are they reliable over the long term? The aim of this project is to investigate the long-term reliability of a new earthquake strengthening technique for brick buildings. The technique involves the use of fibre reinforced polymer (FRP) strips as reinforcement for brick walls and has been shown to give substantial instantaneous strength increases. However, no research has been undertaken to ensure that the improved strength is sustained over the remaining lif ....Retrofitted brick masonry buildings - are they reliable over the long term? The aim of this project is to investigate the long-term reliability of a new earthquake strengthening technique for brick buildings. The technique involves the use of fibre reinforced polymer (FRP) strips as reinforcement for brick walls and has been shown to give substantial instantaneous strength increases. However, no research has been undertaken to ensure that the improved strength is sustained over the remaining life of the building. The only related research involves reinforced concrete which suggests that a reduction of at least 33 per cent could be expected. Hence, this project will quantify the long-term strength of FRP reinforced brickwork to enable engineers to safely apply this new cost-effective retrofit technique.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100130
Funder
Australian Research Council
Funding Amount
$320,000.00
Summary
An earthquake shaking table to investigate soil-structure interactions. An earthquake shaking table to investigate soil-structure interactions: This project aims to develop Australia's most advanced earthquake shaking table. Earthquakes are a problem of great significance to Australia. Infrastructure in civil, transport, mining and energy sectors may be at an unacceptable risk of damage under earthquake loading as current design practices do not account for the interaction between infrastructure ....An earthquake shaking table to investigate soil-structure interactions. An earthquake shaking table to investigate soil-structure interactions: This project aims to develop Australia's most advanced earthquake shaking table. Earthquakes are a problem of great significance to Australia. Infrastructure in civil, transport, mining and energy sectors may be at an unacceptable risk of damage under earthquake loading as current design practices do not account for the interaction between infrastructure and the ground under such loading. The shaking table will simulate earthquakes and enable controlled testing of three-tonne models of foundation and soil-structure interaction systems typical of Australia's infrastructure. The discoveries made are expected to be integral to the modernisation of Australia's seismic design standards so that earthquake-induced damage and risk exposure can be minimised.Read moreRead less
Collapse assessment of reinforced concrete buildings in regions of lower seismicity. This research aims to develop a new displacement based (DB) method for regions of lower seismicity, using 'Displacement Controlled' phenomenon, to assess the risk of collapse and seismic performance of buildings. The project will investigate the system behaviour of buildings in Australia that are laterally supported by lightly reinforced concrete geometric walls, including both torsional and wall floor interacti ....Collapse assessment of reinforced concrete buildings in regions of lower seismicity. This research aims to develop a new displacement based (DB) method for regions of lower seismicity, using 'Displacement Controlled' phenomenon, to assess the risk of collapse and seismic performance of buildings. The project will investigate the system behaviour of buildings in Australia that are laterally supported by lightly reinforced concrete geometric walls, including both torsional and wall floor interaction effects. The new DB method could allow buildings in regions of lower seismicity to be designed for robustness, gravity and wind loading and then checked using displacement principles for seismic compliance, which will dramatically simplify and improve the current seismic design process.Read moreRead less
Built-up cold-formed steel structures. The building industry is seeing a rapid uptake of joining two or more cold-formed steel sections to form large built-up sections with high carrying capacities. The joining consists of screws, or similar fasteners, placed intermittently along the member. The ease of joining encourages innovation in forming versatile new built-up section shapes in expanding areas of application. The project will provide guidelines and numerical tools for the efficient structu ....Built-up cold-formed steel structures. The building industry is seeing a rapid uptake of joining two or more cold-formed steel sections to form large built-up sections with high carrying capacities. The joining consists of screws, or similar fasteners, placed intermittently along the member. The ease of joining encourages innovation in forming versatile new built-up section shapes in expanding areas of application. The project will provide guidelines and numerical tools for the efficient structural design of built-up sections through experimental and theoretical research, studying the new failure modes pertaining to built-up sections, the increase in strength achievable from composite action and the optimum arrangement of fasteners. Read moreRead less
Low Loss Distributed Wind Generators with Reduced Electromagnetic Interference and Shaft Voltage Based on Multilevel Converters. Distributed wind generators with minimum electromagnetic interference and bearing spikes are very important for the Australian energy industry because they are an environmentally friendly energy source. Predicting and reducing electromagnetic interferences and mechanical failures in wind farm systems is an important issue especially for the next generation of wind sys ....Low Loss Distributed Wind Generators with Reduced Electromagnetic Interference and Shaft Voltage Based on Multilevel Converters. Distributed wind generators with minimum electromagnetic interference and bearing spikes are very important for the Australian energy industry because they are an environmentally friendly energy source. Predicting and reducing electromagnetic interferences and mechanical failures in wind farm systems is an important issue especially for the next generation of wind systems when fast and advanced power electronic switches can create more EMI noise for both onshore and offshore wind farms. Medium-Voltage Direct Current (MVDC) systems have good performance and low losses, and are of particular interest to states which are close to wind power sources.Read moreRead less