Abstract

The physical understanding and numerical modelling of superconducting devices which exploit the high performance of second generation high temperature superconducting tapes (2G-HTS), is commonly hindered by the lack of accurate functions which allow the consideration of the in-field dependence of the critical current. This is true regardless of the manufacturer of the superconducting tape. In this paper, we present a general approach for determining a unified function Ic(B, θ), ultimately capable of describing the magneto-angular dependence of the in-field critical current of commercial 2G-HTS tapes in the Lorentz configuration. Five widely different superconducting tapes, provided by three different manufacturers, have been tested in a liquid nitrogen bath and external magnetic fields of up to 400 mT. The critical current was recorded at 90 different orientations of the magnetic field ranging from θ = 0°, i.e., with B aligned with the crystallographic ab-planes of the YBCO layer, towards ±90°, i.e., with B perpendicular to the wider surfaces of the 2G-HTS tape. The whole set of experimental data has been analysed using a novel multi-objective model capable of predicting a sole function Ic(B, θ). This allows an accurate validation of the experimental data regardless of the fabrication differences and widths of the superconducting tapes. It is shown that, in spite of the wide set of differences between the fabrication and composition of the considered tapes, at liquid nitrogen temperature the magneto-angular dependence of the in-field critical current of YBCO-based 2G-HTS tapes, can be described by a universal function Ic(f(B), θ), with a power law field dependence dominated by the Kim’s factor B/B0, and an angular dependence moderated by the electron mass anisotropy ratio of the YBCO layer.

Highlights

  • In order to design or optimize a superconducting machine composed of 2G-HTS tapes, ideally it is necessary to know in advance what is the value of the critical current density of the used tape when it is affected by an external magnetic field, called the in-field critical current density Jc (B, q) [5]

  • We have presented a thorough study of the magneto-angular dependence of the in-field critical current function in the so called Lorentz configuration, Ic (B, q) with B ^ I, of five different samples of commercially available 2G-HTS tapes

  • The experimental results have been obtained for external magnetic fields of up to 400 mT, and range from 0◦ to 90, i.e., with B parallel to the ab-plane of the YBCO tape, towards the perpendicularity conditions where B is parallel to the c-axis

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Summary

Introduction

It is expected that the progressive development of superconducting applications such as superconducting fault current limiters [1], power transmission lines [2], and HTS rotary. If J is locally perpendicular to B, it is easy to demonstrate that the flux lines are always parallel to each other [8] and the anisotropy of the in-field critical current density Jc (B, q) may have its main origin in the crystal structure and fabrication of the YBCO layer. It is this dependence on the fabrication process what hinders the assertion of the existence of a general function that might describe the in-field dependence of the critical current density of commercial 2G-HTS tapes, regardless of their manufacturer.

Experimental setup and measured samples
Findings
Conclusion

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