阅读说明：本技术 一种增强型Bi2212股线 (Enhanced Bi2212 folded yarn ) 是由 毛哲华 秦经刚 杨东昇 何宇翔 周超 戴超 金环 李建刚 武玉 陈俊凌 于 2019-11-08 设计创作，主要内容包括：本发明公开了一种增强型Bi2212股线，包括Bi2212圆线和镍基合金包带，镍基合金包带螺旋紧密缠绕在Bi2212圆线环向外表面，且镍基合金包带的包绕覆盖率不超过80％。本发明通过在普通Bi2212圆线外部缠绕镍基合金包带，在不影响Bi2212股线超导性能的同时，增加了其机械性能，并减小了交流损耗。(The invention discloses an enhanced Bi2212 folded yarn, which comprises a Bi2212 round wire and a nickel-based alloy wrapping tape, wherein the nickel-based alloy wrapping tape is spirally and tightly wound on the circumferential outer surface of the Bi2212 round wire, and the wrapping coverage rate of the nickel-based alloy wrapping tape is not more than 80%. According to the invention, the nickel-based alloy wrapping tape is wound outside the common Bi2212 round wire, so that the mechanical property of the Bi2212 compound wire is increased and the alternating current loss is reduced while the superconducting property of the Bi2212 compound wire is not influenced.)

1. An enhanced Bi2212 folded yarn, which comprises a Bi2212 round yarn, and is characterized in that:

the wire-wrapping tape is characterized by also comprising a nickel-based alloy wrapping tape, wherein the nickel-based alloy wrapping tape is spirally and tightly wound on the circumferential outer surface of the Bi2212 circular wire.

2. An enhanced Bi2212 strand as claimed in claim 1, wherein:

the nickel-based alloy wrapping belt is spirally and tightly wound on the circumferential outer surface of the Bi2212 round wire at equal intervals.

3. An enhanced Bi2212 strand as claimed in claim 1, wherein: the wrapping coverage rate of the nickel-based alloy wrapping belt is 30-80%.

4. An enhanced Bi2212 strand as claimed in claim 1, wherein: the wrapping spiral angle of the nickel-based alloy wrapping belt is 30-72 degrees.

5. An enhanced Bi2212 strand as claimed in claim 1, wherein: the nickel-based alloy has the following dimensions: the width is 1-3mm, and the thickness is 0.04-0.1 mm.

Technical Field

The invention relates to the field of superconducting strands in CICC (copper-clad copper) armored conductors, in particular to an enhanced Bi2212 strand.

Background

The CICC armored conductor (cable-in-conductor) is the first conductor internationally recognized for manufacturing large superconducting magnet coils, because the coolant in the structural conductor is in direct contact with the cable in a fluid form, the wet surface area is large, the heat exchange efficiency is excellent, and the outer armor can provide support for the inner cable, so that the structural strength of the cable is improved. The CICC conductor is widely applied to large scientific devices such as an accelerator, a fusion reactor and the like, such as an International cooperative ITER device in construction, an LHC device of CERN, a W7-X device of German Mapu and the like.

At present, conventional Nb-based superconducting materials such as Nb3Sn and NbTi are subjected to their upper critical field (Hc)₂) Has become increasingly unable to meet future high-field requirements. Therefore, people gradually turn the eyes to high-temperature superconducting materials with high critical fields, such as Bi2212, YBCO and the like, which have higher upper critical fields and have great development prospects. Bi2212 can be made into isotropic round wires, thereby being beneficial to the development of CICC conductors. The current general preparation method of the Bi2212 round wire is a powder tube-filling method, namely, a raw material for forming a superconducting phase is filled into a silver-based sleeve and is subjected to annealing and drawing for multiple times to form a wire, and finally the wire is subjected to high-temperature heat treatment to form the superconducting phase. The preparation process of the Bi2212 round wire and the ceramic structure of the Bi2212 phase aim at the characteristic that the prepared strand has poor mechanical property, and the mechanical strength of the prepared strand is about half of that of the traditional Nb3Sn material. In the manufacturing and practical application of the CICC conductor, the superconducting material may deform due to the action of acting force in the stranding process, lorentz force in the operation process, thermal stress in the temperature raising and lowering process, and the like, so that the critical current of the conductor is degraded. In the future, with the development of magnet technology, the requirement of magnetic field strength will be higher and higher. Higher magnetic field strength will inevitably cause larger deformation of the superconducting material during operation, and the influence of the deformation on the superconducting material is huge, especially on Bi-2212 which is very sensitive to the deformation. In addition, for the CICC conductor manufactured by the Bi2212 common round wire, the contact resistance between the strands is smallUnder the running condition of alternating current, the coupling loss of the alternating current transformer is also large, so that a series of problems such as heating, loss and the like are caused.

Disclosure of Invention

The invention aims to provide an enhanced Bi2212 folded yarn to solve the problems that the Bi2212 round yarn for a CICC armored conductor in the prior art cannot meet the requirement on mechanical performance and has large alternating current loss.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the enhanced Bi2212 folded yarn comprises a Bi2212 round wire and a nickel-based alloy wrapping tape, wherein the nickel-based alloy wrapping tape is spirally and tightly wound on the circumferential outer surface of the Bi2212 round wire.

The enhanced Bi2212 folded yarn is characterized in that the nickel-based alloy wrapping tape is spirally and tightly wound on the circumferential outer surface of the Bi2212 round yarn at equal intervals.

The wrapping coverage rate of the nickel-based alloy wrapping tape is 30-80%. The wrapping coverage rate is the proportion of the covered area of the nickel-based alloy wrapping belt to the total area of the circumferential outer surface of the Bi2212 circular wire.

The wrapping helix angle of the nickel-based alloy wrapping tape is 30-72 degrees.

The nickel-based alloy has the following dimensions: the width is 1-3mm, and the thickness is 0.04-0.1 mm.

Compared with the prior art, the invention has the advantages that:

according to the invention, the nickel-based alloy wrapping tape is wound outside the common Bi2212 round wire, so that the mechanical property of the Bi2212 compound wire is increased and the alternating current loss is reduced while the superconducting property of the Bi2212 compound wire is not influenced. The structure is simple in form and simple and convenient to operate, is beneficial to large-batch engineering realization, and increases the possibility for the application of the Bi2212 type CICC conductor in the future.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

As shown in figure 1, the enhanced Bi2212 compound yarn comprises a Bi2212 round wire 1 and a nickel-based alloy wrapping tape 2, wherein the nickel-based alloy wrapping tape 2 is spirally and tightly wound on the circumferential outer surface of the Bi2212 round wire 1.

The nickel-based alloy wrapping belt 2 is spirally and tightly wound on the circumferential outer surface of the Bi2212 round wire 1 at equal intervals. The wrapping coverage rate of the nickel-based alloy wrapping belt 2 is 30-80%. The wrapping spiral angle of the nickel-based alloy wrapping belt 2 is 30-72 degrees.

In the invention, the wrapping parameters of the nickel-based alloy on the Bi2212 round wire are shown in the following table 1:

TABLE 1 wrap parameter Table

The invention enhances the mechanical strength and reduces the coupling loss by using a special nickel-based alloy wrapping belt with certain width and thickness to spirally and tightly wind the common Bi2212 round wire. Since the Bi2212 round wire needs to be subjected to heat treatment at the temperature of above 800 ℃ in an oxygen-rich environment, and many metals can react with Bi2212 chemically to influence the superconducting properties (INCONEL600, INCONELX750 and the like), the structure needs to use a special nickel-based alloy material, Ni-80Cr, and the selected material is proved not only not to influence the superconducting properties of the Bi2212 but also to keep strong mechanical strength after high-temperature oxygen heat treatment. In addition, the wrap coverage does not exceed 80% in order not to affect the reaction of oxygen with the Bi2212 raw material during heat treatment. According to the reinforced Bi2212 round wire finally finished by the structure, the surface wrapping belt of the reinforced Bi2212 round wire is tightly attached to the conducting wire and does not slip, so that the aim of improving the mechanical strength is fulfilled.

In the invention, Ni-80Cr20 is selected as the nickel-based alloy, and the material is from Jiuli special materials Co. The main components of Ni-80Cr are mainly Cr and Ni, and other small amount of impurities are contained.

The embodiments of the present invention are described only for the preferred embodiments of the present invention, and not for the limitation of the concept and scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the design concept of the present invention shall fall into the protection scope of the present invention, and the technical content of the present invention which is claimed is fully set forth in the claims.