Continuous preparation device and preparation method for bismuth-series high temperature superconductive thick film
A technology for high-temperature superconductivity and preparation devices, which is applied in the usage of superconductor elements, superconducting devices, superconducting/high-conducting conductors, etc. The effective distance of the induced texture is small, and the effects of shortening the preparation cycle, convenient processing, production, installation and layout, and increasing the effective current-carrying area are achieved.
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Embodiment 1
[0039] Such as figure 1 A continuous preparation device for a bismuth-based high-temperature superconducting thick film is shown, including dip-coating equipment for uniformly dip-coating coating slurry on the outer surface of the processed wire strip, and dip-coating with the coating slurry The drying equipment for drying the treated line strip, the rolling equipment for rolling the treated line strip after drying, and the treated line strip from the dip coating equipment, drying Drawing equipment for continuous drawing in dry equipment and rolling equipment. The dip coating equipment includes a mixing container 1 for uniformly mixing the coating slurry. The mixing container 1 is provided with a guide wheel 2 4-4, and the lower part of the guide wheel 4-4 is soaked in the mixing material. Inside the coating slurry in container 1. The wire pulling equipment includes a pay-off machine 4-1 and a wire take-up machine 4-2 arranged behind the pay-off machine 4-1 and used in conju...
Embodiment 2
[0075] In this embodiment, the structure, connection relationship and working principle of the bismuth-based high-temperature superconducting thick film continuous preparation device are the same as those in Embodiment 1.
[0076] In this example, the difference between the continuous preparation method of bismuth-based high-temperature superconducting thick film and Example 1 is that the strip to be processed in step 1 is made by cold rolling with a size of 4.0×0.1×1000mm Silver-based strip 8 with a line speed of V=0.1m / s; when dip-coating the coating slurry in step 2, the organic solvent used is ethanol, and the volume of the organic solvent added in every gram of Bi-2212 powder is 1.2ml , the adding rate of the liquid adding device is 0.57ml / s, and the adding rate of the solid powder adding device is 0.15g / s; when heat treatment is carried out after the winding-up in step 5, it is first incubated at 882°C for 20 Minutes, and then cooled to 840°C at a cooling rate of 5°C / h, ...
Embodiment 3
[0079] In this embodiment, the structure, connection relationship and working principle of the bismuth-based high-temperature superconducting thick film continuous preparation device are the same as those in Embodiment 1.
[0080] In this example, the difference between the continuous preparation method of bismuth-based high-temperature superconducting thick film and Example 1 is that the strip to be processed in step 1 is made by cold rolling with a size of 4.0×0.05×2000mm Silver-based strip 8 with a line speed of V=0.01m / s; when dip-coating the coating slurry in step 2, the organic solvent used is ethanol, and the volume of the organic solvent added in every gram of Bi-2212 powder is 1.2ml , the adding rate of the liquid adding device is 0.47ml / s, and the adding rate of the solid powder adding device is 0.02g / s; when heat treatment is carried out after the winding-up in step 5, it is first kept at a temperature of 890°C for 40 Minutes, and then cooled to 840°C at a cooling r...
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