Unravelling the structural origin of cyclic fatigue in ferroelectrics. Ferroelectric materials have extensive applications in electromechanical devices and memories and in service are often subjected to repeat mechanical and/or electrical loading, leading to cyclic fatigue and failure. This project aims to apply in-situ electron microscopy techniques and computational modelling to explore cyclic ferroelectric fatigue behaviour and to understand the relationships between local atomic scale struct ....Unravelling the structural origin of cyclic fatigue in ferroelectrics. Ferroelectric materials have extensive applications in electromechanical devices and memories and in service are often subjected to repeat mechanical and/or electrical loading, leading to cyclic fatigue and failure. This project aims to apply in-situ electron microscopy techniques and computational modelling to explore cyclic ferroelectric fatigue behaviour and to understand the relationships between local atomic scale structure and fatigue. The structural origin of ferroelectric fatigue has not been clear because of the limitations of previous measurement capabilities. This project will provide guidance in materials design to increase ferroelectric fatigue lifetime for more reliable ferroelectric-based electronic devices.Read moreRead less
New Ceramic: Fully Stabilised Monoclinic ZrO2 by Al2O3 + SiO2 Additions. Aim: To use conventional manufacturing and advanced manufacturing to produce an unprecedented form of zirconia: Fully stabilised monoclinic zirconia. Significance: The product utilises waste and inexpensive raw materials and it avoids the universal nanoscale transformation from the tetragonal and cubic forms of zirconia, which are commercialised. Outcomes: The product can have widespread uses in the chemical, refractory and ....New Ceramic: Fully Stabilised Monoclinic ZrO2 by Al2O3 + SiO2 Additions. Aim: To use conventional manufacturing and advanced manufacturing to produce an unprecedented form of zirconia: Fully stabilised monoclinic zirconia. Significance: The product utilises waste and inexpensive raw materials and it avoids the universal nanoscale transformation from the tetragonal and cubic forms of zirconia, which are commercialised. Outcomes: The product can have widespread uses in the chemical, refractory and mining industries and the technology aims to expand the industrial partner's commodity base from structural ceramics to high-tech ceramics. Benefits: Greater utilisation of waste and Australian raw materials, new commercialisation opportunities, new training and employment opportunities and breakthrough research.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100975
Funder
Australian Research Council
Funding Amount
$415,775.00
Summary
Architectured ceramics to combine strength, toughness, and complex shapes. This project aims to develop ceramics that are simultaneously strong and tough, and to form them into complex shapes without compromising their mechanical properties ā major challenges in science and engineering. Inspired by the internal architectures that confer these advantages on natural hard materials, it will produce novel ceramics with rationally-designed, highly-controlled dense architectures by developing a fast, ....Architectured ceramics to combine strength, toughness, and complex shapes. This project aims to develop ceramics that are simultaneously strong and tough, and to form them into complex shapes without compromising their mechanical properties ā major challenges in science and engineering. Inspired by the internal architectures that confer these advantages on natural hard materials, it will produce novel ceramics with rationally-designed, highly-controlled dense architectures by developing a fast, scalable and versatile light-based 3Dā4D printing technique combined with discrete element modelling. Outcomes will be toughened ceramics and new knowledge on processing-architecture-performance relationships, with significant benefits for biomaterials, defence, transport, high-temperature and aerospace applications.Read moreRead less