A/Prof Tuan Ngo is the Director of the Advanced Protective Technologies for Engineering Structures (APTES) Group at the University of Melbourne. He is also the Research Director of the ARC Centre for Advanced Manufacturing of Prefabricated Housing and Leader of the CRC-P for Innovative Prefabricated Building Systems and the CRC-P for Advanced Manufacturing of High Performance Building Façade Systems. The APTES Group led by A/Prof Ngo is recognised as one of the leading centres in advanced materials & structural systems, and physical infrastructure protection in Australia and the Asia Pacific region. His group has been working closely with industry and government organisations to carry out research and consulting work in these areas. A/Prof Ngo has played a key role in the PrefabAUS, a peak industry body, involving more than 200 companies in the prefabricated manufacturing of modular buildings. He has carried out significant research collaborations with industry and government agencies to perform large-scale experiments of prefabricated modular components of building structures (facades, wall panels and floor slab systems). He is leading the ARC Centre for Advanced Manufacturing of Prefabricated Housing funded by ARC and industry. The national and international research interactions have given Dr Ngo widespread recognition amongst the scientific community and industry as an expert in design and manufacturing of building components and systems using high performance materials. Dr Ngo is the winner of the 2013 Eureka Prize for Outstanding Science in Safeguarding Australia. He also received the Safeguarding Australia Award for Best Contribution to National Security Technology Research in 2011. He also received the Award for Excellence in Concrete by the Concrete Institute of Australia-Vic Branch in 2017 and the University of Melbourne Excellence Award for Industry-engaged Research.
Research expertise: - Prefabricated modular buildings - Extreme loadings: blast, impact and fire - High strength concrete - Wind engineering and computational fluid dynamics - Modelling urban systems and design of sustainable precincts