Overview
Research to increase the efficiency of conventional fossil power plants by increasing the steam temperature and pressure has been pursued worldwide. The need to reduce CO2 emissions has recently provided an additional incentive to increase efficiency. The main enabling technology in achieving the above goals has been the development of stronger high-temperature materials. Solid solution and carbide-strengthened nickel-based super alloys have been identified as candidate materials for Advanced ultra-supercritical (AUSC) boilers capable of operating with 760°C, 35 MPa steam. Laser hybrid welding is one of the potential fusion joining techniques developed for these alloys. Deep penetration capability of laser and edge bridgability of arc process enable the processing of defect-free joints at higher speed with acceptable mechanical properties. The laser hybrid welding process is an AMSE-coded and validated process.
Key Features
- Demonstrated laser hybrid weldability of 10mm thick Plates and Tubes at the coupon level.
- Defect-free hybrid welds with minimal HAZ liquation.
- 100% joint efficiency.
Potential Applications
- Power sector
- Aerospace
- Nuclear
Status
- Performance and stability are validated at the coupon level
Intellectual Property Development Index (IPDI)
Level
1
2
3
4
5
6
7
8
9
10
Description
Basic concepts and understanding of underlying scientific principles
Shortlisting possible applications
Research to prove technical feasibility for targeted application
Coupon level testing in simulated conditions
Check repeatability/consistency
Prototype testing in real-life conditions
Check repeatability/consistency
Reassessing feasibility (IP, competition technology, commercial)
Initiate technology transfer
Support in stabilizing production
Status
| Level | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 |
|---|---|---|---|---|---|---|---|---|---|---|
| Description | Basic concepts and understanding of underlying scientific principles | Shortlisting possible applications | Research to prove technical feasibility for targeted application | Coupon level testing in simulated conditions | Check repeatability/consistency | Prototype testing in real-life conditions | Check repeatability/consistency | Reassessing feasibility (IP, competition technology, commercial) | Initiate technology transfer | Support in stabilizing production |
| Status |
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