Optimisation of self-healing repair systems in aerospace composite structures. Design and manufacture of composite structures for civilian and military aircraft is a multi-billion dollar export business for Boeing Aerostructures Australia and other Australian aerospace companies. To remain globally competitive, Australian industry must develop new expertise for next-generation composite aerostructures that are lighter, cheaper, more damage tolerant and easily repaired. Autonomic self-healing of ....Optimisation of self-healing repair systems in aerospace composite structures. Design and manufacture of composite structures for civilian and military aircraft is a multi-billion dollar export business for Boeing Aerostructures Australia and other Australian aerospace companies. To remain globally competitive, Australian industry must develop new expertise for next-generation composite aerostructures that are lighter, cheaper, more damage tolerant and easily repaired. Autonomic self-healing of composites is an innovative repair technology with many future potential applications for damaged aerostructures. This project will develop analytical tools and data to enable the Australian aerospace industry to take advantage of the economic benefits offered by self-healing repair systems in aircraft composite structures.Read moreRead less
Novel quantitative sizing of inaccessible and hard-to-inspect defects to address the challenges posed by innovations in airframe design. Modern unitised aircraft structures cannot be reliably inspected using traditional techniques. This project will develop new techniques to quantify defects required for this innovation in aircraft component design. This research will improve the through-life support of future metallic and composite aircraft structures and improve air safety.