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Preparation method of high density MgB2 superconduction wire material

A superconducting wire, high-density technology, applied in the field of preparation of MgB2 superconducting material, can solve the problems that cannot be prepared by wire and strip, will not reach 100%, the superconducting current carrying capacity is limited, etc., and can improve the critical current Density, grain refinement, effect of large grain boundary area

Inactive Publication Date: 2006-06-28
SHANGHAI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0003] However, in MgB 2 In the preparation process of superconducting materials, especially bulk materials, wires and strips, since Mg and B are raw materials with low density, the density of Mg is 1.74g / cm 3 , the density of B is 2.34g / cm 3 , even after pressing to achieve 100% compactness, its volume will shrink to 76% of its original volume during sintering, and the obtained MgB 2 There are a lot of shrinkage cavities in the sample, and the density is far lower than its theoretical value of 2.62g / cm 3 , and the pressing will not reach 100%, so after sintering, generally only 1.1~1.5g / cm 3 The loose structure of the material is the main reason that limits the increase of the critical current density of the material, and the MgB 2 It has great influence on basic research, performance testing and production processing
[0004] It is recorded in the literature that high-density MgB can be prepared by hot isostatic pressing. 2 Block material (Nesterenko V F, Gu Y. Elastic properties of hot-isostatically-pressed magnesium diboride. Appllied physics letters. 2003, 82(23): 4104-4106), but its equipment is complex and can only be used for block material preparation , cannot be used for wire and strip preparation
It is also documented in the literature that MgB can be used directly 2 High-density MgB powder compacted 2 Materials (Frederick N A, Li S, Maple M B, et al. Improved superconducting properties of MgB 2. Physica C, 2001, 363:1-5.), but due to the made MgB 2 There are a large number of microcracks in the material, and the superconducting current carrying capacity is also limited.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] MgB of this embodiment 2 The preparation steps of superconducting materials are as follows:

[0016] (1) Place Mg powder with a purity of 99% and a 325-mesh sieve and B powder with a purity of 99% in a vacuum oven and dry at a constant temperature at 120°C for 24 hours, then weigh the Mg and B powders respectively , according to the stoichiometric ratio of Mg: B = 1: 2 for batching, after the batch is evenly ground, it is sealed in tantalum foil;

[0017] (2) Place the above-mentioned tantalum foil filled with Mg and B mixture in the heating tube, use a diffusion vacuum pump to remove the air in the heating tube to make it a vacuum, then fill it with high-purity argon gas for washing, and then vacuumize, After repeating this three times, continue to slowly fill high-purity argon to ensure the inert atmosphere in the tube;

[0018] (3) Place the above-mentioned heating tube in a tube furnace to heat at a heating rate of 100°C / h; heat it up to a reaction temperature of ...

Embodiment 2

[0024] Embodiment 2: The preparation steps in this embodiment are exactly the same as the above-mentioned embodiment 1. The difference is: ①Mg powder and B powder are weighed according to Mg:B=0.7:2; ②MgB obtained by ball milling 2 When mixed with Mg powder and B powder with a stoichiometric ratio of Mg: B = 0.7: 2, the ratio of the amount of Mg powder and B powder added to the primary sintered sample powder is 0.02: 1; ③ The reaction temperature of the material is controlled at 750°C, the holding time is 0.5 hours.

Embodiment 3

[0025] Embodiment 3: The preparation steps in this embodiment are exactly the same as the above-mentioned embodiment 1. The difference is: ①Mg powder and B powder are weighed according to Mg:B=0.8:2; ②MgB obtained by ball milling 2 When mixed with Mg powder and B powder with a stoichiometric ratio of Mg: B = 0.8: 2, the ratio of the amount of Mg powder and B powder added to the primary sintered sample powder is 0.05: 1; ③ The reaction temperature of the material is controlled at 800°C, the holding time is 2 hours.

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Abstract

This invention relates to a preparation method for high density MgB2 super-conduction material including: grinding powders of Mg and B to be sealed in a Ta foil to be put in a heating tube to rise the temperature of 650-950 deg. C for 0.5-10 hours to be sintered for the first time to produce to a MgB2 super-conduction material to be ground to the powder of 2-3mum then to be mixed with powder of Mg and B to be sintered for the second time to get the high density super-conduction material.

Description

technical field [0001] The present invention relates to a kind of MgB 2 Preparation method of superconducting material, especially a kind of high-density MgB 2 Preparation method of superconducting wire. Background technique [0002] In 2001, the intermetallic compound MgB was discovered 2 The result of superconductivity has caused a great sensation in the field of condensed matter physics and materials science. Because many of its unique properties have not been fully recognized and understood by people, it has attracted widespread attention in many disciplines such as materials, physics, and chemistry. MgB 2 The superconducting critical transition temperature of the superconductor is 39K, and its superconducting temperature is second only to oxide superconductors, doped C 60 Solid material superconductor is a simple and stable intermetallic compound superconducting material with the highest superconducting temperature found so far. MgB 2 The structure is a graphite-...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01B12/00H01B12/04H01B13/00H10N60/01
CPCY02E40/60
Inventor 李文献李瑛朱明原金红明陈荣华
Owner SHANGHAI UNIV
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