Could porous pavements be a part of the urban water solution? With water demand in Australia approaching, and sometimes exceeding, limits of sustainability, there is a pressing need to find alternative water sources. At the same time, urban stormwater pollution remains a major environmental threat. These problems are particularly difficult in urban areas, due to space constraints. This project will test and refine porous pavement technology, which could help solve the 'urban water problem'. R ....Could porous pavements be a part of the urban water solution? With water demand in Australia approaching, and sometimes exceeding, limits of sustainability, there is a pressing need to find alternative water sources. At the same time, urban stormwater pollution remains a major environmental threat. These problems are particularly difficult in urban areas, due to space constraints. This project will test and refine porous pavement technology, which could help solve the 'urban water problem'. Replacing impervious areas with porous pavements will allow urban stormwater to be treated and harvested for re-use. Waterways will be protected from pollution, and the vast quantity of urban stormwater generated (similar to the total reticulated water supplied in Australia) can be harvested to sustain cities.Read moreRead less
The durability of geopolymeric products as a function of the nanostructured gel phase. A comprehensive physical, chemical and microscopic analysis will be conducted on a series of geopolymers and Ordinary Portland Cement samples manufactured from 1964 to 2001, with a focus on the characterisation of the nanostructured gel phase. The outcomes include (1) revealing the relationship between the nanostructured gel phase and durability; (2) the discovery of reaction mechanisms in geopolymerisation an ....The durability of geopolymeric products as a function of the nanostructured gel phase. A comprehensive physical, chemical and microscopic analysis will be conducted on a series of geopolymers and Ordinary Portland Cement samples manufactured from 1964 to 2001, with a focus on the characterisation of the nanostructured gel phase. The outcomes include (1) revealing the relationship between the nanostructured gel phase and durability; (2) the discovery of reaction mechanisms in geopolymerisation and formation of OPC; (3) computer modelling of nano-scale assemblies of atoms and molecules that will give desirable properties and durability, and (4) a tailored synthesis of geopolymers with vastly improved mechanical performance and acid, fire and bacterial resistance. This scientific understanding of long term durability will greatly enhance commercial acceptance of geopolymers.Read moreRead less
ARC Centre for Complex Systems. The Australian Centre for Complex Systems brings together leading researchers from several disciplines and institutions to conduct research on questions fundamental to understanding and managing complex systems. Its core research program, based on the theme of computation in and by networks of agents, has two interwoven strands. The science strand addresses questions about emergent properties, natural computation, and nonlinear dynamics. The engineering strand add ....ARC Centre for Complex Systems. The Australian Centre for Complex Systems brings together leading researchers from several disciplines and institutions to conduct research on questions fundamental to understanding and managing complex systems. Its core research program, based on the theme of computation in and by networks of agents, has two interwoven strands. The science strand addresses questions about emergent properties, natural computation, and nonlinear dynamics. The engineering strand addresses issues about methodology, modelling toolkits, and management and control. Practical applications are advanced via collaborative projects that address key issues in biology, environment, and socio-economics.Read moreRead less
Complex Architecture and Convergent Design. After breaking the design code for Gaudí's Sagrada Família Church in 1979, completing the still unfinished church has required Mark Burry to pioneer groundbreaking architectural and construction design methodologies and practices. His current work is on the computer modelling and dynamic simulation of complex design and construction problems, and methods for multi-disciplinary and distributed team collaboration. This work has high impact industry appli ....Complex Architecture and Convergent Design. After breaking the design code for Gaudí's Sagrada Família Church in 1979, completing the still unfinished church has required Mark Burry to pioneer groundbreaking architectural and construction design methodologies and practices. His current work is on the computer modelling and dynamic simulation of complex design and construction problems, and methods for multi-disciplinary and distributed team collaboration. This work has high impact industry applications. At the intersection of so many fields of industrial research, Mark Burry's work acts as a catalyst and accelerator for technology transfer and innovation across the architectural, design and construction industries.Read moreRead less
Future Proofing Schools: using smart green integrated design approaches to prefabricated learning environments. This project draws on multi-disciplinary approaches to set the groundwork of major transformations of prefabricated classrooms, with the use of advanced materials, smart information systems embedded in the classrooms, better placement on sites, and use of more efficient construction techniques, allowing a transformation of this Australian industry. Our research will promote an innovati ....Future Proofing Schools: using smart green integrated design approaches to prefabricated learning environments. This project draws on multi-disciplinary approaches to set the groundwork of major transformations of prefabricated classrooms, with the use of advanced materials, smart information systems embedded in the classrooms, better placement on sites, and use of more efficient construction techniques, allowing a transformation of this Australian industry. Our research will promote an innovation culture and economy within the school and for future generations, and will have flow-on effects into promoting a healthy start to life in which smart, green, and educational imperatives are aligned. This will assist in strengthening Australia's social and economic fabric. Read moreRead less
Smart Green Schools: Educational and Environmental Outcomes of Innovation in School Building Design. The research touches upon many of the key National Research Priorities. Children spend a large proportion of their waking hours within a school environment. A healthy school environment which efficiently uses energy resources and information technology will help ' strengthen Australia's social economic fabric' in the longer term and support student engagement. Children's inhabitation of virtual s ....Smart Green Schools: Educational and Environmental Outcomes of Innovation in School Building Design. The research touches upon many of the key National Research Priorities. Children spend a large proportion of their waking hours within a school environment. A healthy school environment which efficiently uses energy resources and information technology will help ' strengthen Australia's social economic fabric' in the longer term and support student engagement. Children's inhabitation of virtual space as 'native' users of information rich 'frontier technologies' will be complemented by buildings acting as 3D textbooks educating children about an 'environmentally sustainable Australia' and providing feedback on design innovations intended to save 'water' and 'minimise environment impacts' on land and climate.Read moreRead less
Response of residential structures to blast vibration. This proposed project combines the expertise and disciplines of residential construction, structural dynamics and blasting technology. The ultimate aim of the project is to develop a rational methodology for assessing the damage potential of ground vibration resulting from blasting on typical Australian residential structures. The project involves field blast vibration measurements, static and dynamic laboratory tests on structural sub-assem ....Response of residential structures to blast vibration. This proposed project combines the expertise and disciplines of residential construction, structural dynamics and blasting technology. The ultimate aim of the project is to develop a rational methodology for assessing the damage potential of ground vibration resulting from blasting on typical Australian residential structures. The project involves field blast vibration measurements, static and dynamic laboratory tests on structural sub-assemblages in a controlled environment, and comprehensive analytical modelling of both loading and response. The outcomes from this research will have direct application to the mining, insurance, construction and defence industries.Read moreRead less
Microstructure-Based Computational Homogenization of Geomaterials. This project seeks to establish a basis for virtual testing of materials. This type of non-destructive testing has numerous applications of obvious benefit to society and will contribute to the continued growth and development of a large number of industries in Australia and worldwide. The methods developed will allow for cheaper, faster, and more accurate testing of materials. The outcomes of the project can find direct applicat ....Microstructure-Based Computational Homogenization of Geomaterials. This project seeks to establish a basis for virtual testing of materials. This type of non-destructive testing has numerous applications of obvious benefit to society and will contribute to the continued growth and development of a large number of industries in Australia and worldwide. The methods developed will allow for cheaper, faster, and more accurate testing of materials. The outcomes of the project can find direct application in civil engineering as well as in environmental, mining and petroleum engineering which together make up a significant portion of the nation's industry.Read moreRead less
Thin-walled Structures Subjected to Impact and Blast Loading. Terrorist attacks have cost Australians much human grief and billions of dollars. Containing the consequences of a blast or impact is crucial to survival and restricting damage to critical civilian/defence infrastructure. Thin-walled structures are used extensively in such infrastructure. There is a lack of knowledge about their behaviour when subjected to impulse and blast loads. The investigators will establish the most economical m ....Thin-walled Structures Subjected to Impact and Blast Loading. Terrorist attacks have cost Australians much human grief and billions of dollars. Containing the consequences of a blast or impact is crucial to survival and restricting damage to critical civilian/defence infrastructure. Thin-walled structures are used extensively in such infrastructure. There is a lack of knowledge about their behaviour when subjected to impulse and blast loads. The investigators will establish the most economical means of designing passive blast protection into thin-walled structures and hence, Australia's critical infrastructure. This knowledge will be transferred into design standards and Australia's limited defence resources.Read moreRead less
A Mechanistic Approach to the Compression Properties of Z-Pinned Composites. The proposed research is a fundamental investigation of the compressive mechanical properties and failure mechanisms of fibre reinforced polymer (FRP) composites reinforced with z-pins. These composites are a new material with strong potential applications in aerospace structures subject to high compressive loads, however their compressive properties are poorly understood. Using theoretical modelling, finite element an ....A Mechanistic Approach to the Compression Properties of Z-Pinned Composites. The proposed research is a fundamental investigation of the compressive mechanical properties and failure mechanisms of fibre reinforced polymer (FRP) composites reinforced with z-pins. These composites are a new material with strong potential applications in aerospace structures subject to high compressive loads, however their compressive properties are poorly understood. Using theoretical modelling, finite element analysis and experimentation, the research program will greatly enhance the fundamental understanding of the strengthening and failure mechanisms of z-pinned composites. A key outcome of the research will be design guidelines for optimising the pinning of composites for maximum structural performance in aerospace applications.Read moreRead less