The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Testing, modelling and engineering applications of topologically interlocking structures. The CI and his international collaborator have recently proposed a new principle of design of materials and structures based on topological interlocking of constituent elements. Elements of simple shape, such as tetrahedra, are assembled in structures that keep their integrity without any binder or connectors. Unusual properties, such as high fracture toughness and damage tolerance were found. The project a ....Testing, modelling and engineering applications of topologically interlocking structures. The CI and his international collaborator have recently proposed a new principle of design of materials and structures based on topological interlocking of constituent elements. Elements of simple shape, such as tetrahedra, are assembled in structures that keep their integrity without any binder or connectors. Unusual properties, such as high fracture toughness and damage tolerance were found. The project aims at investigating the mechanical and acoustic properties of the newly discovered interlockable geometries (cubes, octahedra, dodecahedra and icosahedra) and identifying the areas of application. The project will promote the international leading role of the collaborating institutions in this novel field.Read moreRead less
Inkjet printing of nanoparticulate materials. The aim of this project is to develop inkjet printing technology to facilitate the freeform fabrication of nanomaterials. The application of nanomaterials will lead to breakthroughs in information technology, health, the environment and energy generation and storage. This project will develop the methods required to inkjet print nanomaterials into multilayered components. This is a multifunctional rapid prototyping technology that synthesises compone ....Inkjet printing of nanoparticulate materials. The aim of this project is to develop inkjet printing technology to facilitate the freeform fabrication of nanomaterials. The application of nanomaterials will lead to breakthroughs in information technology, health, the environment and energy generation and storage. This project will develop the methods required to inkjet print nanomaterials into multilayered components. This is a multifunctional rapid prototyping technology that synthesises components directly from computer solid models and radically compresses the time from concept to delivery. The outcome of this project will be a fabrication facility which will enable us to make and test nanoscale materials and components made from them.Read moreRead less
Effect of Chemo-Mechanical Grinding on Surface Integrity of Single Crystal Silicon Substrates. Silicon substrates or wafers are extensively used in electronic and optic/photonic industries. A long-time standing problem in silicon wafer machining is the surface and subsurface damage induced by machining. This may significantly affect the mechanical, optical and electronic characteristics of wafer-based components. The issue becomes increasingly more critical as the application of silicon wafers i ....Effect of Chemo-Mechanical Grinding on Surface Integrity of Single Crystal Silicon Substrates. Silicon substrates or wafers are extensively used in electronic and optic/photonic industries. A long-time standing problem in silicon wafer machining is the surface and subsurface damage induced by machining. This may significantly affect the mechanical, optical and electronic characteristics of wafer-based components. The issue becomes increasingly more critical as the application of silicon wafers is extending further as structural components. The research outcomes will contribute an improved understanding of Chemo Mechanical Grinding process and help to develop innovative technologies for silicon industries.Read moreRead less
Development of nano-structured thermoelectric materials for power generation from heat. To make thermoelectric technology attractive for practical power generation purposes, new high efficiency materials have to be developed. Our fabricated nanostructured thermoelectric materials will have improved performance due to the peculiarities in electrical and thermal transport. The novel thermoelectric materials and constructed prototype devices with high thermoelectric performance will be practically ....Development of nano-structured thermoelectric materials for power generation from heat. To make thermoelectric technology attractive for practical power generation purposes, new high efficiency materials have to be developed. Our fabricated nanostructured thermoelectric materials will have improved performance due to the peculiarities in electrical and thermal transport. The novel thermoelectric materials and constructed prototype devices with high thermoelectric performance will be practically used for various power generation purposes. This offers a long-term solution to the global warming threat through decreasing amounts of waste heat presently generated. It will also strengthen Australia's position in world-wide research on thermoelectricity.Read moreRead less
Development of a Superplastic Forming Capabilities in Magnesium-Based Alloys through Processing using Severe Plastic Deformation. This research will provide a basis for advancing the structural use of magnesium alloys in the building and transportation industries. It is anticipated the project will lower the cost of producing lightweight structures and extend the range of alloys that can be used in such applications. With the growing magnesium industry in Australia, and with the potential for Au ....Development of a Superplastic Forming Capabilities in Magnesium-Based Alloys through Processing using Severe Plastic Deformation. This research will provide a basis for advancing the structural use of magnesium alloys in the building and transportation industries. It is anticipated the project will lower the cost of producing lightweight structures and extend the range of alloys that can be used in such applications. With the growing magnesium industry in Australia, and with the potential for Australia to become a major world supplier of magnesium, the development of advanced processing technology for magnesium-based alloys is of national importance. The project will play a vital role in strengthening the Australian technological position and increasing the opportunities for professional Australians.Read moreRead less
Nanostructured Al Alloys: SPD Processing and Properties. The use of conventional Al alloys in automotive and airspace industries is often restricted by their low room temperature strength. Development of high strength Al alloys which could replace much more expensive Ti alloys or heavier steel in constructions is a very promising way to reduce structural weight and cost. Using the Severe Plastic Deformation (SPD) technique, namely high pressure torsion and equal-channel angular extrusion, we ai ....Nanostructured Al Alloys: SPD Processing and Properties. The use of conventional Al alloys in automotive and airspace industries is often restricted by their low room temperature strength. Development of high strength Al alloys which could replace much more expensive Ti alloys or heavier steel in constructions is a very promising way to reduce structural weight and cost. Using the Severe Plastic Deformation (SPD) technique, namely high pressure torsion and equal-channel angular extrusion, we aim to develop a new method for production of bulk nanostructured Al alloy with high room temperature strength for automotive and airspace applications.
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
Nanostructured materials for development of advanced lithium energy storage systems. This project is expected to bring several national benefits. Novel nanostructured electro-active materials and high energy density rechargeable lithium batteries will be developed. The application of advanced lithium batteries as power sources for electric vehicles (EVs) and hybrid electric vehicles (HEVs) will realise nearly zero emission transportation. The widespread usage of EVs and HEVs could significantly ....Nanostructured materials for development of advanced lithium energy storage systems. This project is expected to bring several national benefits. Novel nanostructured electro-active materials and high energy density rechargeable lithium batteries will be developed. The application of advanced lithium batteries as power sources for electric vehicles (EVs) and hybrid electric vehicles (HEVs) will realise nearly zero emission transportation. The widespread usage of EVs and HEVs could significantly reduce air pollution, improve urban environment and increase national energy security and energy independence.Read moreRead less
Molecular Modelling of Growth Mechanisms and Electronic Properties of Nanostructured Metal-Oxides. This proposal falls in the Australia National Research Priority area of advanced materials. The growth and functionality of nanostructured metal oxides will be simulated using both first principle calculations and molecular dynamic simulations. It will lead to important photonic nanomaterials for maintaining good health, drug delivery and cancer treatment, thus contributing to Australian health car ....Molecular Modelling of Growth Mechanisms and Electronic Properties of Nanostructured Metal-Oxides. This proposal falls in the Australia National Research Priority area of advanced materials. The growth and functionality of nanostructured metal oxides will be simulated using both first principle calculations and molecular dynamic simulations. It will lead to important photonic nanomaterials for maintaining good health, drug delivery and cancer treatment, thus contributing to Australian health care industry. The methodology to be developed in this project will also contribute to the science of molecular simulations and photonic nanomaterials.Read moreRead less
Development of micro abrasive water jetting technology for micro machining and polishing on small complex curved surfaces. The fabrication of micro-parts such as those used in integrated sensors and micro-actuators is a new challenge for the rapid development of this industry. Many existing technologies either find limitations or result in defects on the machined surfaces. This project will develop an innovative abrasive water-jetting technology for micro machining and polishing. It will deve ....Development of micro abrasive water jetting technology for micro machining and polishing on small complex curved surfaces. The fabrication of micro-parts such as those used in integrated sensors and micro-actuators is a new challenge for the rapid development of this industry. Many existing technologies either find limitations or result in defects on the machined surfaces. This project will develop an innovative abrasive water-jetting technology for micro machining and polishing. It will develop the fundamentals and prototype for further development by industry. New nozzle designs will be analyzed and optimized by computational fluid dynamics studies and experimental investigations using a Particle Image Velocimeter. Mathematical models for the processing performance will also be developed for use in process control.Read moreRead less