The 2G -HTS tapes, produced in SCSC, are consist of Hastelloy as substrate,YBCO as superconducting layer, copper as reinforcing laminated layer, and polyimide as insulation layer.
Sample diagram
Finished product drawing
Material composition diagram
Zero resistance. In a superconductor, below a temperature called the “critical temperature”, the electric resistance very suddenly falls to zero, at which the material conducts current perfectly although the flaws and vibrations of the atoms in it still exist.
Diamagnetism refers to the fact that when a superconductor is in a superconducting state, the magnetic field lines that penetrate into the body are completely repelled, and the magnetic induction inside the superconductor is always kept at zero. Magnetic Levitation came out due to the property.
Superconductivity is a macroscopic quantum phenomenon, and a superconductor can also be regarded as a macroscopic quantum system, the Brian David Josephson effect is the quantum mechanical tunneling effect that occurs when a pair of electrons passes through a thin insulating layer between two superconducting metals, about 1 nm thick. In 1962, UNIVERSITY OF OXFORD GRADUATE STUDENT B. Brian David Josephson first theoretically predicted the tunneling effect of superconducting electron pairs, which was later confirmed by experiments. Brian David Josephson effect can be used to measure the magnetic field of sensors, such as superconducting quantum interference devices (SQUIDs), monitoring voltage units reference devices.
Basic Parameters
Optional Parameters
Note:Tailor-made tapes are available with protection layers in different thickness and of different kinds.
Ic of 12 mm-wide 2G-HTS common tape (77K,s.f.)
Ic of 12 mm-wide 2G-HTS tape with thick ReBCO film (77K,s.f.)
Ic of 2G-HTS tapes with AP
Angle dependence of in-field Ic values for AP tapes
Angle dependence of in-field Ic values for AP tapes
Lift factors of 2G-HTS tapes with AP
I-V curves of 12mm-wide 2G-HTS tapes
Low joint resistance and excellent mechanical properties
*The experimental data measured by ①China High Magnetic Field Laboratory(CHMFL) ②Robinson Research Institute(New Zealand) ③EAST FORCE superconducting ④North China Electric Power University (NCEPU)