SILOET Project 4 - High Temperature Materials
Lead Participant:
ROLLS-ROYCE PLC
Abstract
SILOET Project 4 – High Temperature Materials
This project aims to make 5 materials technologies ready for deployment onto the next generation of civil gas turbines. The technologies are:
• A new low cost single crystal alloy for blade applications.
• A single crystal alloy with rare earth additions for blade applications
• A Ni-based superalloy lifing correlation for turbine disc applications
• A Dual microstructure Ni-based superalloy for turbine disc applications
• Cast Titanium Aluminides for LP blade applications.
The programme is being carried out by a consortium of Rolls-Royce plc and the Universities of Birmingham, Cambridge and Swansea at a total cost of £15.2 M. Delivery of these technologies will help meet the ACARE environmental targets.
This project aims to make 5 materials technologies ready for deployment onto the next generation of civil gas turbines. The technologies are:
• A new low cost single crystal alloy for blade applications.
• A single crystal alloy with rare earth additions for blade applications
• A Ni-based superalloy lifing correlation for turbine disc applications
• A Dual microstructure Ni-based superalloy for turbine disc applications
• Cast Titanium Aluminides for LP blade applications.
The programme is being carried out by a consortium of Rolls-Royce plc and the Universities of Birmingham, Cambridge and Swansea at a total cost of £15.2 M. Delivery of these technologies will help meet the ACARE environmental targets.
Lead Participant | Project Cost | Grant Offer |
---|---|---|
ROLLS-ROYCE PLC | £15,690,210 | £ 7,845,105 |
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Participant |
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UNIVERSITY OF BIRMINGHAM | £279,995 | £ 139,998 |
SWANSEA UNIVERSITY | £209,686 | £ 104,843 |
UNIVERSITY OF CAMBRIDGE | £209,999 | £ 105,000 |
People |
ORCID iD |