원문정보
피인용수 : 0건 (자료제공 : 네이버학술정보)
초록
영어
Practical superconducting wires are designed with a composite structure to meet the desired engineering characteristics by expert selection of materials and design of the architecture. In practice, the local strain exerted on the superconducting component influences the electromagnetic properties. Here, recent progress in methods used to measure the local strain in practical superconducting wires and conductors using quantum beam techniques is introduced. Recent topics on the strain dependence of critical current are reviewed for three major practical wires: Nb3Sn, BSCCO-2223 and REBCO tapes.
목차
Abstract
1. INTRODUCTION
2. GENERATION OF LOCAL STRESS / STRAIN IN THE COMPOSITE SUPERCONDUCTING WIRES AND THEIR EVALUATION TECHNIQUES
2.1. Principle of local strain measurements under external load
2.2. Neutron diffraction method
2.3. Synchrotron radiation method
2.4. Critical current measurement under external load
3. LOCAL STRESS / STRAIN AND THEIRINFLUENCE TO PROPERTIES OF PRACTICAL COMPOSITE SUPERCONDUCTING WIRES
3.1. Nb3Sn composite wires
3.2. BSCCO-2223 Tapes
3.3. REBCO Tapes
4. SUMMARY
ACKNOWLEDGMENT
REFERENCES
1. INTRODUCTION
2. GENERATION OF LOCAL STRESS / STRAIN IN THE COMPOSITE SUPERCONDUCTING WIRES AND THEIR EVALUATION TECHNIQUES
2.1. Principle of local strain measurements under external load
2.2. Neutron diffraction method
2.3. Synchrotron radiation method
2.4. Critical current measurement under external load
3. LOCAL STRESS / STRAIN AND THEIRINFLUENCE TO PROPERTIES OF PRACTICAL COMPOSITE SUPERCONDUCTING WIRES
3.1. Nb3Sn composite wires
3.2. BSCCO-2223 Tapes
3.3. REBCO Tapes
4. SUMMARY
ACKNOWLEDGMENT
REFERENCES
키워드
저자정보
참고문헌
자료제공 : 네이버학술정보