Preparation method of high-strength and strong-cube-texture Ni-W baseband

A strong cubic texture, high strength technology, applied in the direction of manufacturing tools, heat treatment equipment, furnace types, etc., can solve the problem of uncommercial production of high-performance nickel-tungsten alloy base tape, mechanical strength and magnetic properties cannot be satisfied, and it is difficult to obtain strong cubic texture and other problems, to achieve the effect of improving mechanical properties, fine and uniform grain size, and strong cubic texture

Active Publication Date: 2019-04-12
河南工学院
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the Ni-5at.% W alloy base strip has been commercially produced, but the mechanical strength and magnetic properties of the Ni-5at.% W alloy base strip cannot meet the requirements of high-performance coated superconducting strips, making the application of superconducting materials The field is limited to a large extent. Although the mechanical properties and magnetic properties ca

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  • Preparation method of high-strength and strong-cube-texture Ni-W baseband
  • Preparation method of high-strength and strong-cube-texture Ni-W baseband

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Embodiment 1

[0016] The steps of the preparation method of the embodiment of the present invention 1 are as follows:

[0017] (1) Alloy thin strip continuous casting and heat treatment

[0018] The nickel-tungsten binary alloy ingot is obtained by continuous casting thin strip technology with a tungsten atomic percentage of 12%. The thickness of the ingot is 2.0mm, and the content of impurity elements sulfur, carbon and phosphorus is controlled below 30ppm , and then heat-treat the billet, the process is: 1300 ° C for 2 hours;

[0019] (2) Hot rolling of alloy billets

[0020] Hot rolling the ingot after the above annealing treatment, the hot rolling process is: the starting rolling temperature is 1380°C, the finishing rolling temperature is 1150°C, single-pass hot rolling, and the deformation is 50%;

[0021] (3) Cold rolling and heat treatment of hot rolled sheet

[0022] The hot-rolled sheet obtained above is descaled and then cold-rolled. The cold-rolled deformation is 70%, and then...

Embodiment 2

[0025] The steps of the preparation method of the embodiment of the present invention 2 are as follows:

[0026] (1) Alloy thin strip continuous casting and heat treatment

[0027] The nickel-tungsten binary alloy ingot is obtained by continuous casting thin strip technology with a tungsten atomic percentage of 12%. The thickness of the ingot is 2.0mm, and the content of impurity elements sulfur, carbon and phosphorus is controlled below 30ppm , and then heat-treat the billet, the process is: 1300 ° C for 2 hours;

[0028] (2) Hot rolling of alloy billets

[0029] Hot rolling the ingot after the above annealing treatment, the hot rolling process is: the starting rolling temperature is 1380°C, the finishing rolling temperature is 1180°C, single-pass hot rolling, and the deformation is 50%;

[0030] (3) Cold rolling and heat treatment of hot rolled sheet

[0031] The hot-rolled sheet obtained above is descaled and then cold-rolled. The cold-rolled deformation is 78%, and then...

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Abstract

The invention discloses a preparation method of a high-strength and strong-cube-texture Ni-W baseband. The preparation method of the high-strength and strong-cube-texture Ni-W baseband comprises the following steps of (1) alloy thin strip continuous casting and heat treatment, wherein the percentage content of tungsten atoms is 12%, a continuous casting thin strip technology is adopted to obtain aNi-W binary alloy billet, the thickness of the billet is 2.0 mm, the content of the impurity elements of S, C and P is controlled to be 30 ppm or below correspondingly, and a heat treatment on the billet is carried out, wherein the technique of the heat treatment is to preserve heat for 2 hours at the temperature of 1300 DEG C; (2) hot rolling of the alloy billet, wherein the hot rolling on the billet is carried out, and a hot rolling technique comprises the parameters that the rolling temperature is 1380 DEG C, the final rolling temperature ranges from 1150 to 1180 DEG C, the one-pass hot rolling is carried out and the deformation amount is 50%; and (3) cold rolling and heat treatment on a hot rolled plate, wherein cold rolling is carried out after the hot rolled plate is descaled, the cold rolling deformation amount is 70-78%, and a cold-rolled strip is subjected to a recovery heat treatment, wherein the technique of the recovery heat treatment comprises the step that the heat preservation is carried out for 2 min at 700 DEG C; and then a recrystallization heat treatment is carried out, wherein the technique of recrystallization heat treatment comprises the step that heat preservation is carried out for 20 min at 1260-1300 DEG C under an external magnetic field of 8-12 T. The high-strength and strong-cube-texture Ni-W baseband has the advantages of being high in strength andstrong in cube texture.

Description

technical field [0001] The invention relates to a preparation method of a high-temperature coated superconductor strip reinforced textured metal base band, in particular to a preparation method of a non-ferromagnetic high-strength textured nickel-tungsten alloy base band. Background technique [0002] The second-generation high-temperature superconducting materials have a wide range of application values ​​in the fields of strong electricity, strong magnetism, and weak electricity. [0003] The second-generation coated superconducting tape is composed of a ductile metal substrate and its epitaxially grown multilayer film. The ferromagnetism, strong cubic texture and mechanical properties of the metal substrate tape are the most important in the field of coating superconducting tape preparation. problem to be solved. At present, the Ni-5at.% W alloy base strip has been commercially produced, but the mechanical strength and magnetic properties of the Ni-5at.% W alloy base str...

Claims

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Application Information

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IPC IPC(8): B22D11/06C21D9/52C22C19/03C22F1/10
CPCB22D11/001B22D11/06C21D9/52C22C19/03C22F1/10
Inventor 刘琳霞郭永亮孔慧君孙博
Owner 河南工学院
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