Slitting-free non-winding amorphous ribbon preparation method and preparation system

A preparation system and thin strip technology, applied in the field of preparation method and preparation system of non-slitting and non-coiled amorphous thin strips, to achieve the effects of avoiding performance degradation, reducing equipment investment, and reducing production costs

Active Publication Date: 2017-03-22
ZHEJIANG NORMAL UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The purpose of the present invention is to provide a non-slitting and non-coiled amorphous ribbon preparation method and preparation system, aiming to solve the redundant process existing in the current amorphous ribbon spinning process, and avoid the current amorphous ribbon preparation process. Coiling, rewinding, slitting and other processes, the amorphous strip

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  • Slitting-free non-winding amorphous ribbon preparation method and preparation system
  • Slitting-free non-winding amorphous ribbon preparation method and preparation system
  • Slitting-free non-winding amorphous ribbon preparation method and preparation system

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preparation example Construction

[0075] Further, the preparation method of the non-slitting non-coiling amorphous ribbon specifically includes:

[0076] Configure the master batch according to the target required components, and configure the master alloy by the AC arc melting method or the high frequency induction heating method;

[0077] Set grooves on the cooling roll surface according to the target requirements;

[0078] Configure amorphous ribbon collection device according to target requirements;

[0079] Configure the melt nozzle and melt the master alloy according to the target requirements;

[0080] According to the target requirements, a single-roll rapid quenching method is used to prepare stacks of amorphous ribbons.

[0081] Furthermore, a strip-shaped amorphous thin ribbon automatic collector is arranged in front of the cooling roller to automatically collect and neatly stack the strip-shaped amorphous thin ribbon from the cooling roller.

[0082] Further, the segment-shaped amorphous thin ribbon automatic ...

Embodiment 1

[0088] Complete the first embodiment of the present invention according to the following steps:

[0089] 1. Preparation of master alloy: A mixture of 78% Fe, 9% Si and 13% B is prepared by atomic ratio. Under the protection of argon, it is heated and melted by high-frequency induction method and cooled to obtain a master alloy.

[0090] 2. Set a groove of 0.3mm wide and 0.2mm deep on the surface of the cooling roll with a diameter of 45cm perpendicular to the direction of rotation, and then polish the cooling roll surface.

[0091] 3. The amorphous alloy ribbon of the present invention is prepared by the single-roll rapid quenching technology including the following sub-steps.

[0092] (a) Put the master alloy composed of the above atomic ratio in a crucible with a softening temperature higher than 1400°C.

[0093] (b) Under the protection of argon, heat the master alloy by high-frequency induction until it melts, and continue to heat it until it is overheated into an alloy melt.

[0094...

Embodiment 2

[0099] Complete embodiment 2 of the present invention according to the following steps:

[0100] 1. Master alloy preparation: according to the atomic ratio including 73.5% Fe, 1.0% Cu, 3.0% Nb, 13.5% atomic ratio Si and 9.0% atomic ratio B preparation and mixing, under the protection of argon, use high frequency After heating and melting by induction method, it is cooled to obtain a master alloy.

[0101] 2. Set 0.15mm wide and 0.2mm deep grooves perpendicular to the rotation direction at 3 equal points on the surface of the cooling roll with a diameter of 45cm, and then polish the cooling roll surface.

[0102] 3. The amorphous alloy ribbon of the present invention is prepared by the single-roll rapid quenching technology including the following sub-steps.

[0103] (a) Put the master alloy composed of the above atomic ratio in a crucible with a softening temperature higher than 1400°C.

[0104] (b) Under the protection of argon, heat the master alloy by high-frequency induction until ...

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Abstract

The invention discloses a slitting-free non-winding amorphous ribbon preparation method and a preparation system. According to the preparation method, a plurality of grooves are formed in a cooling roller face perpendicular to the rotating direction of a rapid-quenching cooling roller so that an amorphous ribbon can be automatically broken at groove positions in the throwing process, and a segment-shaped amorphous ribbon is formed. The preparation system comprises a melting device, a throwing device and an automatic segment-shaped amorphous ribbon collector. By means of the preparation method and the preparation system, the segment-shaped amorphous ribbon with a needed length can be directly obtained in the throwing process of the amorphous process, the redundant procedures that in the prior art, the amorphous ribbon is wound firstly and then is disengaged from a disk and slit are omitted, the production efficiency is improved, the production cost and the equipment investment are reduced, and meanwhile, the situation that as stress action is introduced by winding, the performance of the amorphous ribbon is reduced is avoided.

Description

Technical field [0001] The invention belongs to the technical field of amorphous thin ribbon preparation, and in particular relates to a method and system for preparing an amorphous thin ribbon without slitting and non-coiling. Background technique [0002] In order to obtain the special microstructure of the amorphous alloy, it is required to quench directly from the molten state to the temperature below the freezing point at a very high cooling rate during the preparation process. Single-roll rapid quenching technology is currently the most widely used technology. [0003] In the current technology, the continuous ribbon spinning method is used to continuously spray the alloy melt through the nozzle onto the surface of the high-speed rotating cooling roller to form a continuous amorphous ribbon. The amorphous ribbon made in this way is continuous from beginning to end, and the amorphous ribbon made from a furnace of melt usually has a length of more than several kilometers. For...

Claims

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Application Information

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IPC IPC(8): B22D11/06B22D11/10
CPCB22D11/0611B22D11/0642B22D11/0651
Inventor 郑金菊方允樟李文忠潘日敏叶慧群
Owner ZHEJIANG NORMAL UNIVERSITY
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