Economic and social benefits should come from more resilient, robust and efficient infrastructure constructed with innovative materials designed to lower costs, improve energy efficiency, and reduce environmental impacts generally.Īll this has the potential to lift the international competitiveness of Australian construction and manufacturing industries.ġ Innovation, Research and Development (High Commendation) for the development of the “Multi-Axis Substructure Testing (MAST) System” by Engineers Australia at the Australian Engineering Excellence Awards (AEEA), (2016)Ģ WH Warren Medal by the Board of the College of Civil Engineers of Engineers Australia for the best paper in the discipline of civil engineering “Development and validation of multi-axis substructure testing system for full-scale experiments” (M. The laboratory's research outcomes are expected to lead to the development of more efficient infrastructure systems and safer buildings, bridges, offshore structures and mining structures. The testing facility is available to other Australian universities and to government and industry bodies. The only one of its kind in Australia, the $15 million laboratory is located at Hawthorn campus in the architecturally striking Advanced Technologies Centre and features transparent walls, allowing passers-by to watch researchers and scientists at work. The laboratory's director, Professor Riadh Al-Mahaidi, is an international leader in the field of bridge engineering, structural systems and structural retrofitting using fibre-reinforced polymer composites. He is joined by several academic staff in the School of Engineering that use the SSL for research and teaching activities. Swinburne's innovative Smart Structures Laboratory forms part of the Centre for Smart Infrastructure and Digital Construction and conducts research over a broad range of infrastructure-related areas, including large-scale testing of new engineering materials and components.
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