Metallographic and Bending Strain Property Analysis of Reinforced Nb3Sn Strand Candidates for Japanese DEMO
- Resource Type
- Periodical
- Authors
- Banno, N.; Yagai, T.; Kawashima, S.; Sugimoto, M.; Awaji, S.; Utoh, H.; Sakamoto, Y.
- Source
- IEEE Transactions on Applied Superconductivity IEEE Trans. Appl. Supercond. Applied Superconductivity, IEEE Transactions on. 33(5):1-8 Aug, 2023
- Subject
- Fields, Waves and Electromagnetics
Engineered Materials, Dielectrics and Plasmas
Wires
Bending
Strain
Stress
Niobium-tin
Conductors
Fixtures
Bending strain
DEMO
EBSD
++%24%5F3%24<%2Ftex-math>+<%2Finline-formula>+<%2Fnamed-content>Sn%22">Nb $_3$ Sn
reinforcement
- Language
- ISSN
- 1051-8223
1558-2515
2378-7074
The influence of a large electromagnetic force on the conductor of a demonstration power plant (DEMO) reactor magnet is a crucial issue. The present study summarizes the metallographic and bending strain property analysis of DEMO-candidate reinforced Nb 3 Sn wires in Japan. Here, EBSD strain analysis was used as a new microscopic method to evaluate the material properties of Nb 3 Sn wire components. Two reinforcement options have been considered: (1) the use of a brass matrix for distributed-tin (DT) wire (made by Kobe Steel) and (2) the use of CuNb reinforcement in the outer sheath of a bronze-route Nb 3 Sn wire (made by Furukawa Electric). Both the reinforced wires exhibit better stress tolerance against bending load because of their higher mechanical strength than Cu. The high elasticity of the brass matrix of the DT wire and the CuNb area in the bronze-route Nb 3 Sn wire have been confirmed through electron backscatter diffraction (EBSD) strain analysis. The results strongly support the use of reinforced Nb 3 Sn wires to maintain their high I c performance in Japan's DEMO designed with a larger operating current and higher magnetic field than International Thermonuclear Experimental Reactor (ITER).