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Reference Number EP/V010093/1
Title Advanced ceramics from liquid feedstock for aerospace propulsion
Status Started
Energy Categories ENERGY EFFICIENCY(Transport) 25%;
HYDROGEN and FUEL CELLS(Fuel Cells) 5%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Metallurgy and Materials) 20%;
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering) 80%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Dr T Hussain
No email address given
Mechanical, Materials and Manufacturing Engineering
University of Nottingham
Award Type Standard
Funding Source EPSRC
Start Date 01 October 2021
End Date 30 September 2026
Duration 60 months
Total Grant Value £1,736,743
Industrial Sectors Aerospace; Defence and Marine
Region East Midlands
Programme NC : Engineering
Investigators Principal Investigator Dr T Hussain , Mechanical, Materials and Manufacturing Engineering, University of Nottingham (100.000%)
  Industrial Collaborator Project Contact , Xi'an Jiaotong University, China (0.000%)
Project Contact , University of Manchester (0.000%)
Project Contact , Turbine Surface Technologies Limited (0.000%)
Project Contact , Rolls-Royce PLC (0.000%)
Project Contact , Concordia University (0.000%)
Project Contact , Stony Brook University (0.000%)
Project Contact , Surface Eng for Advanced Mat. (SEAM) (0.000%)
Project Contact , Treibacher Industrie AG (0.000%)
Project Contact , University West (0.000%)
Web Site
Abstract Ceramics are an important group of materials and their processing into aerospace coatings and components requires specialist techniques. Current methodologies for new materials discovery and development are wasteful, energy inefficient, and not representative of the production scale environment. This Early Career Fellowship in the priority area of Advanced Materials Engineering will demonstrate that new ceramic compositions can be processed from liquids with a high power, high efficiency and high velocity three cathode plasma source with axial injection as the primary technique. My vision is to establish modelling tools and advanced materials processing techniques that will enable the design and manufacture of advanced ceramic coatings and components with tailored microstructure with thermal, electrical and environmental barrier properties fine-tuned to their desired applications. This will enable unique microstructure of ceramic coatings coupled with fine-tuned thermal, environmental and electrical properties for thermal barrier coatings in the aero gas turbines, environmental barrier coatings for ceramic matrix composites in those turbines, electrolytes for fuel cells and solar cells in auxiliary power generation for electric aircraft, dielectric coatings for aero electric motors, wear and high temperature oxidation and corrosion resistant coatings for various critical components in the aero-engine. To facilitate widespread industrial uptake, I will develop a new high throughput process with reduced waste and improved sustainability based on high power, high velocity plasma, enabling the production of tailored ceramic coatings and components of the required nanostructure and microstructure of the required pore architecture in large volumes at a fraction of a cost of current techniques. This will enable the manufacture of coatings with bespoke compositions and provide unprecedented control of pore size, shape, fraction and distribution which are essential for thermal, environmental and electrical properties of these coatings. The integrated approach to materials discovery and manufacture will lead to creation of products for the aerospace industry with improved properties, performances and reduced materials processing times, in line with the aims of the fellowship priority area
Publications (none)
Final Report (none)
Added to Database 29/11/21