Predictive cost and maintenance models for bidding and short term scheduling strategies in hydro power plants. The aim of this project is to develop knowledge based models that can be used to estimate the costs implicit in operating hydro-electric power generation systems in intermittent and off-design modes. These costs manifest in increased maintenance, loss of water supply and opportunity costs or values. A model of the Tasmanian system would be unique, and the application of knowledge based ....Predictive cost and maintenance models for bidding and short term scheduling strategies in hydro power plants. The aim of this project is to develop knowledge based models that can be used to estimate the costs implicit in operating hydro-electric power generation systems in intermittent and off-design modes. These costs manifest in increased maintenance, loss of water supply and opportunity costs or values. A model of the Tasmanian system would be unique, and the application of knowledge based systems to cost and decision making in this situation is novel. Opportunities exist to collaborate with Norwegian researchers. The success of the project will lead to better utilization of the Tasmanian renewable energy resource.Read moreRead less
Development of a Mathematical Model for Chatter Prediction in Multi-Stand Cold Flat Rolling Mills. On the one hand, this project will make a significant contribution to the field of study on dynamics of complex mechanical systems and on the other hand, directly assist the Australian steel industry in further improving quality and productivity and thereby maintaining its competitive edge in the international marketplace. The project will benefit the nation and community in:
(i) advanced steel ....Development of a Mathematical Model for Chatter Prediction in Multi-Stand Cold Flat Rolling Mills. On the one hand, this project will make a significant contribution to the field of study on dynamics of complex mechanical systems and on the other hand, directly assist the Australian steel industry in further improving quality and productivity and thereby maintaining its competitive edge in the international marketplace. The project will benefit the nation and community in:
(i) advanced steel manufacturing technology enabling higher rolling speed, production in more advanced thin gauge rolling, and prevention of production breakdowns caused by mill chatter;
(ii) strengthened competitiveness of the local steel industry resulting in increased exports and employment;
(iii) enhanced regional economy resulting from improved technologies.Read moreRead less
Seismic behaviour of drive-in steel storage racks. The purpose of this project is to study the behaviour, analysis and design of drive-in steel storage racks in an earthquake event. The main research outcome is the development of scientifically-based guidelines for the safe design of drive-in racks in seismic regions.
Structural Systems with Hollow Flange Sections in Cold-Formed Steel. Palmer Tube Mills have created a new range of hollow flange sections in cold-formed steel manufactured with the unique dual resistance welding process for use in the construction industry. The new sections combine the properties of hot-rolled open sections and cold-formed sections to create more structurally efficient sections. These new sections experience some unique and specific failure modes that are not considered in cur ....Structural Systems with Hollow Flange Sections in Cold-Formed Steel. Palmer Tube Mills have created a new range of hollow flange sections in cold-formed steel manufactured with the unique dual resistance welding process for use in the construction industry. The new sections combine the properties of hot-rolled open sections and cold-formed sections to create more structurally efficient sections. These new sections experience some unique and specific failure modes that are not considered in current design standards. This project will investigate these failure modes to devise efficient and safe guidelines for their structural design. The project will also develop new structural systems to utilise the unique properties of these sections.Read moreRead less
High-strength formwork systems. The project will lead to new formwork systems which are safer, stronger and quicker to erect. The systems will rely on scientific investigations to minimise the risk of structural collapse and associated cost to community. The systems are innovative and combine advanced technology to produce a superior product with strong export potential and capacity to raise the level of efficiency in the national market. The project will also develop advanced analysis and desig ....High-strength formwork systems. The project will lead to new formwork systems which are safer, stronger and quicker to erect. The systems will rely on scientific investigations to minimise the risk of structural collapse and associated cost to community. The systems are innovative and combine advanced technology to produce a superior product with strong export potential and capacity to raise the level of efficiency in the national market. The project will also develop advanced analysis and design methods for formwork systems which can be applied more generally to advance Australian engineers' position as world leaders in innovative structural design.Read moreRead less
Surface Integrity Characterization of Sapphire Wafers for Wireless and Fibre Optic Semiconductor Industry. This project aims to uncover the mechanism of surface integrity in sapphire wafers and thus to establish its relationship with the quality processing of integrated circuits. The project will comprehensively consider surface damage, residual stresses, thermal shock and dislocation evolution as an organic whole to provide an effective solution to the problems in the current production practic ....Surface Integrity Characterization of Sapphire Wafers for Wireless and Fibre Optic Semiconductor Industry. This project aims to uncover the mechanism of surface integrity in sapphire wafers and thus to establish its relationship with the quality processing of integrated circuits. The project will comprehensively consider surface damage, residual stresses, thermal shock and dislocation evolution as an organic whole to provide an effective solution to the problems in the current production practice. Problems caused by unsatisfactory surface integrity represent a major outlay for the wireless and fibre optic semiconductor industry. The proposed research holds the very real possibility of reducing the capital cost and enhancing the quality of the integrated circuits of high capacity.Read moreRead less
Structural behaviour of innovative hollow flange steel members subject to local and lateral distortional buckling effects. This project will investigate the local and lateral distortional buckling behaviour of a new generation of innovative and cost-effective thin and high strength steel hollow flange sections (HFS) being developed using a unique dual weld and roll-forming technology. It will use experiments and advanced numerical modelling to develop fundamental behavioural and design data for ....Structural behaviour of innovative hollow flange steel members subject to local and lateral distortional buckling effects. This project will investigate the local and lateral distortional buckling behaviour of a new generation of innovative and cost-effective thin and high strength steel hollow flange sections (HFS) being developed using a unique dual weld and roll-forming technology. It will use experiments and advanced numerical modelling to develop fundamental behavioural and design data for HFS flexural members. Effects of web corrugations and punched holes will also be investigated. The research will enable innovative applications using HFS in the building industry in Australia and overseas. It will bring significant economic benefits to the industry partner, steel building industry, and Australia.Read moreRead less
Structural Behaviour of Innovative LiteSteel Beams, their Design Improvements and Applications. This project will develop a significant knowledge base, accurate design models and innovative application methods for the new LSB, which will be fully used by the collaborating partner in marketing them in Australia and overseas. Both construction and manufacturing industry sectors will benefit through the increased use of the innovative and lightweight hollow flange sections. Using the new sections a ....Structural Behaviour of Innovative LiteSteel Beams, their Design Improvements and Applications. This project will develop a significant knowledge base, accurate design models and innovative application methods for the new LSB, which will be fully used by the collaborating partner in marketing them in Australia and overseas. Both construction and manufacturing industry sectors will benefit through the increased use of the innovative and lightweight hollow flange sections. Using the new sections and the wealth of design information from this research, Australian engineers can develop cost-effective and safer building systems. Community at large, in particular rural and regional communities will gain through cheaper building systems, additional employment in LSB manufacturing and design, and opportunities locally and overseas.Read moreRead less
Development of New Superabrasives Cutting Tool Technology. This project aims to develop a new cutting tool technology for an effective high-speed machining of difficult-to-cut materials. The research will establish an innovative technique, by making full use of the current production wastes, for the precision shaping of the Australian made superabrasive composites. Based on this, the optimum machining conditions of the composite tool will be explored in terms of the tool life and the surface int ....Development of New Superabrasives Cutting Tool Technology. This project aims to develop a new cutting tool technology for an effective high-speed machining of difficult-to-cut materials. The research will establish an innovative technique, by making full use of the current production wastes, for the precision shaping of the Australian made superabrasive composites. Based on this, the optimum machining conditions of the composite tool will be explored in terms of the tool life and the surface integrity of the machined components. The success of the research will greatly enhance the competitive edge of the Australian machining industry based on its own advanced technology.Read moreRead less
Skid mounted process for on-demand acetylene production. Skid mounted process for on-demand acetylene production. This project aims to develop a new, cheaper, safer and easier process for providing acetylene for the metal fabrication and construction industries. Mains gas (methane) will be converted into acetylene, on-site and on-demand, using a highly compact, transportable skid-based gas generator that is self-operating with a single touch ON-OFF system. This should remove the need to deliver ....Skid mounted process for on-demand acetylene production. Skid mounted process for on-demand acetylene production. This project aims to develop a new, cheaper, safer and easier process for providing acetylene for the metal fabrication and construction industries. Mains gas (methane) will be converted into acetylene, on-site and on-demand, using a highly compact, transportable skid-based gas generator that is self-operating with a single touch ON-OFF system. This should remove the need to deliver bottled acetylene to metal fabrication works, eliminating road transport and storage risks. There is a high potential for export of the plants to countries like China and India that use a calcium carbide-based process as a distributed acetylene source.Read moreRead less