Highlights - Planetary Materials
Planetary science is an emerging research theme in Australia, and research at ANSTO is embedded in the heart of this.
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Energy Materials
Creating a global energy system that is both environmentally and economically sustainable is unquestionably one of the largest challenges facing the scientific and engineering communities.
Planetary Materials
Welcome to the home of Planetary Materials research at ANSTO.
Advanced materials
Stable, highly conductive 2D nanosheets of boron nitride promising new material.
Food Materials Science
The Food Materials Science project applies nuclear-based techniques to investigate fundamental and industrial problems of national significance in food science, including food processing and product development. ingredient selection, food, and health
Advanced materials research
New oxygen ion conducting material for use in solid oxide fuel cells and other devices
Advanced manufacturing and materials
ANSTO’s suite of infrastructure and capabilities is ideally suited for solving problems relating to the development and characterisation of advanced materials, and the engineering of manufactured components and processes.
Highlights - Energy Materials
Highlights of the Energy Materials Project.
Equipment - Energy Materials
Infastructure used on the Energy Materials Project.
Collaborators - Planetary Materials
We are part of the Planetary Science community in Australia
Infrastructure - Planetary Materials
At ANSTO we have a large range of facilities that can be used to investigate planetary materials.
Collaborators - Energy Materials
The Energy Materials project aims to engage the wider research community in addition to our internal research.
Materials in extreme environments
Insights into the behaviour of structural materials in a molten salt environment
Materials in extreme environments
Material researchers at ANSTO use a range of in-house capabilities in the development, testing and characterisation of existing and emerging materials for extreme environments of the novel nuclear (fission/fusion) based energy-generation systems.
Materials in extreme environments
Materials researchers focus on development, performance and in-service degradation of nickel-based superalloys, reinforced carbon-Carbon (C/C) composites, and ultra-high temperature ceramics (UHTC).
Project Members - Planetary Materials
The Planetary Materials theme at ANSTO is co-ordinated by Helen Maynard-Casely and Helen Brand.
The characterisation of planetary materials
ANSTO provides a range of capabilities using neutrons, X-rays and infrared radiation to study the solids, liquids and gases that might be found in materials in our solar system and beyond.
The characterisation of planetary materials
ANSTO provides a range of capabilities using neutrons, X-rays and infrared radiation to study the solids, liquids and gases that might be found in materials in our solar system and beyond.
Advanced materials and manufacturing processes
ANSTO infrastructure and capabilities are ideally suited for solving problems relating to the development and characterisation of advanced materials, the engineering of manufactured components and manufacturing processes.
Advanced materials and manufacturing processes
ANSTO infrastructure and capabilities is ideally suited for solving problems relating to the development and characterisation of advanced materials, the engineering of manufactured components and manufacturing processes.