Studies on the Weld Characterstics and Weldability of Welded Joints with Alternate Supply of Shileding Gases in Welding. In today's dynamic changing environment, for industries to remain internationally competitive, traditional manufacturing techniques used for welding have to become more flexible and intelligent to attain better adaptability and higher productivity. In industrial applications of MIG/MAG welding processes, various types of shielding gases are used based on type of work material ....Studies on the Weld Characterstics and Weldability of Welded Joints with Alternate Supply of Shileding Gases in Welding. In today's dynamic changing environment, for industries to remain internationally competitive, traditional manufacturing techniques used for welding have to become more flexible and intelligent to attain better adaptability and higher productivity. In industrial applications of MIG/MAG welding processes, various types of shielding gases are used based on type of work material and weld quality required. In this proposed research, experimental studies will be conducted on welding productivity by using different shielding gas combinations. The aim of this project is to conduct experimental analysis on weld arc phenomenon, weld pool behavior, and weld quality and to build an intelligent system for the selection of optimum combination shielding gas mixtures. In addition this study also aims to examine how the microstructure and mechanical properties of different welds are influenced by the use of different shielding gases combinations.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989804
Funder
Australian Research Council
Funding Amount
$150,000.00
Summary
A Universal Nano Tribometer for Surface and Thin Film Characterisation. The proposed infrastructure will be of major benefit to a large number of ARC funded research projects involving chracterisation of materials at four universities UOW,QUT, UNSW and CDU. The project will extend the research capability of the participating researchers and facilitate innovative projects and new research direction in advanced materials processing in the nano/micro scale. This in turn will lead to improved intern ....A Universal Nano Tribometer for Surface and Thin Film Characterisation. The proposed infrastructure will be of major benefit to a large number of ARC funded research projects involving chracterisation of materials at four universities UOW,QUT, UNSW and CDU. The project will extend the research capability of the participating researchers and facilitate innovative projects and new research direction in advanced materials processing in the nano/micro scale. This in turn will lead to improved international competitiveness of Australian industry.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453398
Funder
Australian Research Council
Funding Amount
$161,075.00
Summary
A Non Contact Facility For Measuring Irreversible Energy, Residual Stress, and Full Field Stresses for Critical Rail Infra-Structure Assessment. To meet the national rail objectives as enunciated in the 2002 Green Paper there is an urgent requirement for a capability for: i) advanced (rail) prototype assessment, ii) rapid assessment of rail infra-structure, iii) for increasing the capacity of existing (rail) infra-structure. To address this we propose a facility with both a dissipative energy m ....A Non Contact Facility For Measuring Irreversible Energy, Residual Stress, and Full Field Stresses for Critical Rail Infra-Structure Assessment. To meet the national rail objectives as enunciated in the 2002 Green Paper there is an urgent requirement for a capability for: i) advanced (rail) prototype assessment, ii) rapid assessment of rail infra-structure, iii) for increasing the capacity of existing (rail) infra-structure. To address this we propose a facility with both a dissipative energy measurement and a 'lock in' thermograpghy capability. Recent Australian developments in thermo-elasticity enables the researchers to extend this facility to measure residual stress in complex components. The ability to measure dissipated energy, residual stress, ultrasonic waves, and full field stress will create a unique research capability.Read moreRead less
Damage-Free Surfacing of Large Brittle Wafers with On-Machine Flatness Control. The knowledge gained from this research project will be of great value to the development of new generations of high-integrity semiconductor systems for high-speed telecommunication, large-scale computation, transport, biomedicine, agriculture, mining and security. The outcomes will have significant impact on the ultra-precision discipline scientifically and will sharpen the competitive edge of the Australian fabrica ....Damage-Free Surfacing of Large Brittle Wafers with On-Machine Flatness Control. The knowledge gained from this research project will be of great value to the development of new generations of high-integrity semiconductor systems for high-speed telecommunication, large-scale computation, transport, biomedicine, agriculture, mining and security. The outcomes will have significant impact on the ultra-precision discipline scientifically and will sharpen the competitive edge of the Australian fabrication industry. The research will open up remarkable opportunities for young researchers to work in one of the most frontier fields in the 21st century.Read moreRead less
Development of Knowledge Based Process Planning System for Non-Symmetrical Sheet Metal Forming Processes. Sheet metal and automotive industries need to continually improve their strategic competitive advantages with flexibility and cost-effectiveness to remain competitive in a changing world economy. In order to achieve this, the primary objective in the proposed research is to design and develop a knowledge-based process planning system for non-symmetrical products produced by deep drawing pro ....Development of Knowledge Based Process Planning System for Non-Symmetrical Sheet Metal Forming Processes. Sheet metal and automotive industries need to continually improve their strategic competitive advantages with flexibility and cost-effectiveness to remain competitive in a changing world economy. In order to achieve this, the primary objective in the proposed research is to design and develop a knowledge-based process planning system for non-symmetrical products produced by deep drawing processes. This objective will be achieved by investigating the effect of process variable on drawability of sheet material, by obtaining relevant process information through necessary experimentation and finite element analysis and by development of a rule base by acquiring process information from domain experts selected from number of sheet metal manufacturing industries.Read moreRead less
Laser Assisted Machining of Hard-to-wear Materials for Slurry Pump and Mineral Processing Equipment. The project aims to develop techniques for commercially applicable machining of very hard-to-wear materials using high power laser beams. Traditional techniques of machining such components using cubic boron nitride (CBN) based cutting tools are highly time consuming and expensive both in terms of labour costs and inserts costs. The laser assisted machining of these materials is expected to redu ....Laser Assisted Machining of Hard-to-wear Materials for Slurry Pump and Mineral Processing Equipment. The project aims to develop techniques for commercially applicable machining of very hard-to-wear materials using high power laser beams. Traditional techniques of machining such components using cubic boron nitride (CBN) based cutting tools are highly time consuming and expensive both in terms of labour costs and inserts costs. The laser assisted machining of these materials is expected to reduce the cost and lead time of manufacturing, provide improved tool wear life, and improved on time delivery of products. The technology will have application to the manufacture and use of slurry pumps associated with the mineral processing and mining industries.Read moreRead less
Guided droplet deposition: Microfabrication of advanced materials. The progress of micro and nanofabrication is opening an array of new opportunities with a new degree of freedom for manufacturing. This process will complement the existing micromanufacturing facilities in Melbourne. While metal printing and deposition of polymers is presently available, the guided droplet deposition will extend current capabilities to include ceramics and high melting temperature metals. Direct application to me ....Guided droplet deposition: Microfabrication of advanced materials. The progress of micro and nanofabrication is opening an array of new opportunities with a new degree of freedom for manufacturing. This process will complement the existing micromanufacturing facilities in Melbourne. While metal printing and deposition of polymers is presently available, the guided droplet deposition will extend current capabilities to include ceramics and high melting temperature metals. Direct application to medical devices will provide a more effective surface for improved performance and allow the incorporation of smart and sensor materials for multifunctional devices. Read moreRead less
Magneto-optical imaging of super-current flow in superconducting tapes and wires. This project is aimed at establishing the connections between local and global superconducting current-carrying abilities in magnesium diboride and high temperature superconducting tapes and wires. Local high-resolution magneto-optical imaging combined with transport current techniques will be employed. Super-current stream-lines and critical current density distributions will be quantitatively obtained from local ....Magneto-optical imaging of super-current flow in superconducting tapes and wires. This project is aimed at establishing the connections between local and global superconducting current-carrying abilities in magnesium diboride and high temperature superconducting tapes and wires. Local high-resolution magneto-optical imaging combined with transport current techniques will be employed. Super-current stream-lines and critical current density distributions will be quantitatively obtained from local magnetic flux behaviour. Pinpointing the connections is expected not only to promote production technology, but also to elucidate factors influencing the current-carrying ability in the tapes and wires.Read moreRead less
Electrorheological Fluid-based Actuators. The proposed project will make significant contribution towards both fundamental understanding of nanoparticle materials and the development of novel nanomaterial based devices. It is expected that new technology obtained from this research will be transferred to the automotive industry in Australia. It will also strengthen the collaboration between Australia and other countries, such as Hong Kong where research is also at the forefront in this field. Au ....Electrorheological Fluid-based Actuators. The proposed project will make significant contribution towards both fundamental understanding of nanoparticle materials and the development of novel nanomaterial based devices. It is expected that new technology obtained from this research will be transferred to the automotive industry in Australia. It will also strengthen the collaboration between Australia and other countries, such as Hong Kong where research is also at the forefront in this field. Australian research students and engineers will also gain training opportunities from this project.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346666
Funder
Australian Research Council
Funding Amount
$260,000.00
Summary
Mobile high power diode laser for thermal processing applications. This proposal seeks to establish a mobile, high-power diode laser facility for thermal processing of in-situ components in the power generation, defence, shipbuilding and mining industries. Diode lasers offer significant advantages for laser thermal processing over conventional CO2 and Nd:YAG lasers in terms of their output wavelength, size and efficiency. The mobile high power diode laser facility will help build a strong infr ....Mobile high power diode laser for thermal processing applications. This proposal seeks to establish a mobile, high-power diode laser facility for thermal processing of in-situ components in the power generation, defence, shipbuilding and mining industries. Diode lasers offer significant advantages for laser thermal processing over conventional CO2 and Nd:YAG lasers in terms of their output wavelength, size and efficiency. The mobile high power diode laser facility will help build a strong infrastructure for in-situ repair of worn components and is expected to reduce overall component repair costs and time.Read moreRead less