Understanding the performance of cold-formed steel frame wall systems in fires to design for superior fire resistance. This project will develop new light gauge steel frame (LSF) wall systems with superior fire resistance rating and associated design rules to enable innovative and safe applications of these wall systems in various building applications. This will enable expansion of the worldwide market for LSF wall systems by the industry partner.
Innovative and safe design solutions for aluminium façade systems. This project plans to develop design rules and mullion profiles to support the use of façades using aluminium members with complex shapes. The façade is of great importance to the structural safety, energy efficiency and aesthetics of a building. Commonly used façade systems are made of glass supported by aluminium mullions with complex shapes. Current aluminium design standards do not consider the instability and failures caused ....Innovative and safe design solutions for aluminium façade systems. This project plans to develop design rules and mullion profiles to support the use of façades using aluminium members with complex shapes. The façade is of great importance to the structural safety, energy efficiency and aesthetics of a building. Commonly used façade systems are made of glass supported by aluminium mullions with complex shapes. Current aluminium design standards do not consider the instability and failures caused by wind actions on facades using such complex aluminium members. This project aims to conduct full-scale tests and develop advanced numerical models to resolve several critical problems and identify designs with superior wind resistance. Based on this, the project aims to provide innovative, accurate and safe design rules for the façade engineering profession and building industry.Read moreRead less
Bearing capacities of innovative LiteSteel beams and their floor systems. This project will develop accurate bearing capacity design models for the new LiteSteel beams (LSB) to enable innovative and safe applications of LSBs in various flooring systems in buildings. Improved LSB floor systems will also be developed. This will enable expansion of the worldwide market for LSB products and systems by the industry partner.
Discovery Early Career Researcher Award - Grant ID: DE150101104
Funder
Australian Research Council
Funding Amount
$330,000.00
Summary
Novel Shelters Using Sheathed Cold–formed Steel Framing Systems. Safe shelters are needed within residential, school and commercial building systems to prevent the loss of lives during natural disasters. This project aims to understand how the fire, cyclone and earthquake resistance of shelters can be increased by using a new cold-formed and rivet fastened hollow flange section as studs and joists within the lightweight steel frame wall, and floor systems with superior configurations that are li ....Novel Shelters Using Sheathed Cold–formed Steel Framing Systems. Safe shelters are needed within residential, school and commercial building systems to prevent the loss of lives during natural disasters. This project aims to understand how the fire, cyclone and earthquake resistance of shelters can be increased by using a new cold-formed and rivet fastened hollow flange section as studs and joists within the lightweight steel frame wall, and floor systems with superior configurations that are lined with thin steel sheet and thermally superior boards. Experimental and numerical studies will be used to enhance our understanding of these novel and more complex systems and develop safer shelter systems at low cost. They can also be used in many other applications based on the emerging modular building concept.Read moreRead less
Light steel roof and wall systems under combined wind and bushfire actions. The project aims to investigate the complex behaviour of light cold-formed-steel roof and wall systems involving localized failures under the combined action of wind and bushfire using wind suction tests at elevated temperatures combined with advanced numerical modelling. It will generate new knowledge of the behaviour and strength of cold-formed-steel roof and wall systems under bushfire conditions. Expected outcomes in ....Light steel roof and wall systems under combined wind and bushfire actions. The project aims to investigate the complex behaviour of light cold-formed-steel roof and wall systems involving localized failures under the combined action of wind and bushfire using wind suction tests at elevated temperatures combined with advanced numerical modelling. It will generate new knowledge of the behaviour and strength of cold-formed-steel roof and wall systems under bushfire conditions. Expected outcomes include new design models for wind, bushfire and cold-formed-steel Standards. This will significantly improve the bushfire safety of buildings, since non-combustible steel roof and wall systems are used as building envelopes in bushfire prone areas, but are not designed to withstand recently discovered bushfire-enhanced winds.Read moreRead less