Developing a scientific relationship between non-destructive testing ("NDT"), manufacturing acceptance levels and integrity requirements for pressure equipment welds. The acceptance of pressure equipment welds involves the interplay of three engineering fields: manufacturing acceptance standards, non-destructive testing and structural integrity analysis. Historically each of these fields has been developed separately by different research groups. In recent years these developments have acceler ....Developing a scientific relationship between non-destructive testing ("NDT"), manufacturing acceptance levels and integrity requirements for pressure equipment welds. The acceptance of pressure equipment welds involves the interplay of three engineering fields: manufacturing acceptance standards, non-destructive testing and structural integrity analysis. Historically each of these fields has been developed separately by different research groups. In recent years these developments have accelerated with new demands on failure risk, a revolution in NDT techniques and advances in structural integrity analysis. As a result there are now large inconsistencies between the various requirements which lead to serious disputes in industry.
This project seeks to redefine the appropriate relationship between the fields and develop a scientific and logical pathway for standards development.Read moreRead less
DETERMINATION OF SUSCEPTIBILITY TO ENVIRONMENTALLY-ASSISTED CRACKING OF SMALL AND MICROSTRUCTURALLY VARIED REGIONS WHILE MAINTAINING FRACTURE MECHANICS VALIDITY. The proposed work seeks to develop an improved tool for more accurate design data and improved materials selection criteria for critical equipment and infrastructure maintenance in major Australian industries, where environmentally-assisted cracking is a serious concern (viz., marine, polymer/chemical processing, aeronautical, alumina m ....DETERMINATION OF SUSCEPTIBILITY TO ENVIRONMENTALLY-ASSISTED CRACKING OF SMALL AND MICROSTRUCTURALLY VARIED REGIONS WHILE MAINTAINING FRACTURE MECHANICS VALIDITY. The proposed work seeks to develop an improved tool for more accurate design data and improved materials selection criteria for critical equipment and infrastructure maintenance in major Australian industries, where environmentally-assisted cracking is a serious concern (viz., marine, polymer/chemical processing, aeronautical, alumina mineral processing and pulp-and-paper). A successful validation of the novel testing approach (namely, Spiral Notch Torsion Test (SNTT)) for evaluating the stress corrosion cracking (SCC) susceptibility of materials of practical interest that are difficult or impossible to adequately characterize by conventional tests, is as much a fundamental research challenge as its accomplishment will be industrially attractive.Read moreRead less
Improvement in Stress Corrosion Cracking Resistance of Stainless Steels in Environments Conducive to Localized Pitting Damage. Stress corrosion cracking (SCC) represents a serious threat to infrastructure exposed to chloride and caustic environments. The proposed project will characterize the chloride-SCC crack propagation parameters for a super duplex stainless steel, which is the material of construction for vessels for stripping vinyl chloride monomer in a PVC processing plant. Alarmingly hig ....Improvement in Stress Corrosion Cracking Resistance of Stainless Steels in Environments Conducive to Localized Pitting Damage. Stress corrosion cracking (SCC) represents a serious threat to infrastructure exposed to chloride and caustic environments. The proposed project will characterize the chloride-SCC crack propagation parameters for a super duplex stainless steel, which is the material of construction for vessels for stripping vinyl chloride monomer in a PVC processing plant. Alarmingly high numbers the welds (nearly 50%) in the vessel had suffered extensive pitting (which is a well-known SCC initiator) and SCC cracking. For the mitigation measures, the project will also investigate pitting and SCC susceptibility of weldments of alternative varieties of stainless steels, such as Zeron 100.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
Delivering Next-Generation Broadband Internet Access to Australia: Integration of Broadband Optical and Wireless Networks. Provision of broadband services is a high priority for the Australian government as evidenced by a range of initiatives costing more than $4 billion. Especially, the integration of optical and wireless broadband access will potentially provide inexpensive and efficient solutions to customers. Building on the strength of existing photonics and wireless industries in Australia ....Delivering Next-Generation Broadband Internet Access to Australia: Integration of Broadband Optical and Wireless Networks. Provision of broadband services is a high priority for the Australian government as evidenced by a range of initiatives costing more than $4 billion. Especially, the integration of optical and wireless broadband access will potentially provide inexpensive and efficient solutions to customers. Building on the strength of existing photonics and wireless industries in Australia, direct and indirect outcomes of this project can lead to new business opportunities and will further strengthen the growing local telecommunication industries. It is also anticipated that national and international collaboration will generate further research activities and significantly enhance the existing reputation of Australian research capabilities.Read moreRead less
Enhancing Australian Universities' Research Commercialisation Performance. The primary aims of the project are to develop a detailed understanding of the systematic barriers to research commercialisation within Australian universities and to promote innovation within the commercialisation through the adoption of effective processes. The project will also explore the needs of the smaller and regional universities to develop effective strategies that will enhance their research commercialisation c ....Enhancing Australian Universities' Research Commercialisation Performance. The primary aims of the project are to develop a detailed understanding of the systematic barriers to research commercialisation within Australian universities and to promote innovation within the commercialisation through the adoption of effective processes. The project will also explore the needs of the smaller and regional universities to develop effective strategies that will enhance their research commercialisation capacity and performance through the promotion of industry uptake of their research outcomes.Read moreRead less
Elastic and biodegradable sponges/aerogels from exfoliated silk nanofibres . The aim of this project is to investigate methods to produce highly porous elastic sponges from silk protein nanofibres. These sponges will have optimal mechanical, insulation and degradation properties making them suitable for a wide range of applications including the biomedical and personal care sectors, where current products have significant drawbacks due to the use of non-biodegradable synthetic materials. Outco ....Elastic and biodegradable sponges/aerogels from exfoliated silk nanofibres . The aim of this project is to investigate methods to produce highly porous elastic sponges from silk protein nanofibres. These sponges will have optimal mechanical, insulation and degradation properties making them suitable for a wide range of applications including the biomedical and personal care sectors, where current products have significant drawbacks due to the use of non-biodegradable synthetic materials. Outcomes include new knowledge on controlling porous structures and tailoring properties to targeted applications. This project, by laying the groundwork for a new generation of bio-based materials, will benefit the Australian advanced manufacturing sector, and enhance Australia's standing in materials science and engineering.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100186
Funder
Australian Research Council
Funding Amount
$233,000.00
Summary
The 3D Nanofabrication Facility. This project aims to breach the gap between meso, micro and nanoscale manufacturing by means of a novel 3D printing technique with nanometric resolution. This project expects to generate new knowledge in the technologies to fabricate complex structures with freedom of design from the meso to the nanoscale, currently not possible in Australia, by using the innovative integration of this technique within a well establish nanofabrication facility. Expected outcomes ....The 3D Nanofabrication Facility. This project aims to breach the gap between meso, micro and nanoscale manufacturing by means of a novel 3D printing technique with nanometric resolution. This project expects to generate new knowledge in the technologies to fabricate complex structures with freedom of design from the meso to the nanoscale, currently not possible in Australia, by using the innovative integration of this technique within a well establish nanofabrication facility. Expected outcomes of this project include new discoveries in fields such as nanotechnology, photonics, robotics, metamaterials, biosurface engineering or biotechnology. This should provide significant benefits, such as placing Australia in the leadership of nanotechnology and additive manufacturing.Read moreRead less
The true potential and limitations of fibres. This project aims to understand the fibre spinning process of nanomaterials to identify their true potential and limitations in wearable applications. The project is expected to lead to multifunctional materials that allow design and production of smart functional fibres and textiles that store and convert energy and sense, monitor and respond to human activities and external environments. The project outcomes are expected to accelerate the transform ....The true potential and limitations of fibres. This project aims to understand the fibre spinning process of nanomaterials to identify their true potential and limitations in wearable applications. The project is expected to lead to multifunctional materials that allow design and production of smart functional fibres and textiles that store and convert energy and sense, monitor and respond to human activities and external environments. The project outcomes are expected to accelerate the transformation of the fibre industry, which will have far reaching implications across research disciplines and sectors critical to technology, health, social, and economic future.Read moreRead less