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Novel iron-based amorphous soft magnetic alloy with corrosion resistance and preparation method thereof

An iron-based amorphous, soft magnetic alloy technology, applied in the direction of magnetic materials, magnetic objects, electrical components, etc., can solve the problems of harsh alloy preparation conditions, reduced thermal stability, brittle strips, etc., and achieve good non-ferrous metals. The effect of crystal formation ability, corrosion resistance improvement, and cost reduction

Inactive Publication Date: 2018-08-21
HENAN ZHONGYUE AMORPHOUS NEW MATERIALS +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Studies have shown that when the C content is higher than 3at%, the preparation conditions of the alloy are harsh, it is easy to catch fire, the prepared strip is easy to become brittle, and the thermal stability decreases
[0007] In summary, there is still a lack of iron-based amorphous soft magnetic alloys and their products with high saturation magnetic induction and low cost in the market. Therefore, there is still an urgent need for iron-based soft magnetic alloys with high saturation magnetic induction and low cost. Amorphous soft magnetic alloy

Method used

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  • Novel iron-based amorphous soft magnetic alloy with corrosion resistance and preparation method thereof
  • Novel iron-based amorphous soft magnetic alloy with corrosion resistance and preparation method thereof
  • Novel iron-based amorphous soft magnetic alloy with corrosion resistance and preparation method thereof

Examples

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Embodiment 1

[0044] A Novel Iron-Based Amorphous Soft Magnetic Alloy Fe with Corrosion Resistance 80.00 Si 8.80 B 10.75 C 0.20 Cr 0.25 (at%), denoted as Y1. Its preparation method comprises the following steps:

[0045] 1) Ingredients: Fe with a purity of 99.999wt%, Si with a purity of 99.999wt%, FeB with a B content of 17.40wt%, FeC with a C content of 5wt%, and Cr with a purity of 99.99wt%, expressed according to the above alloy In the formula, the atomic percentage content is used for batching;

[0046] 2) Melting master alloy: Put the raw materials with good ratio into the quartz crucible. The raw materials are placed in the order of the melting point of the raw material components, that is, the alloy steel or alloy elements with low melting point in the raw material components are placed on the upper layer, and the melting point of the raw material components is higher. High alloy steel or alloy elements are placed in the lower layer, and impurity adsorbent B of 1% of the total ...

Embodiment 2

[0049] A Novel Iron-Based Amorphous Soft Magnetic Alloy Fe with Corrosion Resistance 80.00 Si 8.69 B 10.61 C 0.20 Cr 0.5 (at%), denoted as Y2. Its preparation method comprises the following steps:

[0050] 1) Ingredients: Fe with a purity of 99.999wt%, Si with a purity of 99.999wt%, FeB with a B content of 17.40wt%, FeC with a C content of 5wt%, and Cr with a purity of 99.99wt%, expressed according to the above alloy In the formula, the atomic percentage content is used for batching;

[0051] 2) Melting master alloy: Put the raw materials with good ratio into the quartz crucible. The raw materials are placed in the order of the melting point of the raw material components, that is, the alloy steel or alloy elements with low melting point in the raw material components are placed on the upper layer, and the melting point of the raw material components is higher. High alloy steel or alloy elements are placed in the lower layer, and impurity adsorbent B of 1.3% of the total...

Embodiment 3

[0054] A Novel Iron-Based Amorphous Soft Magnetic Alloy Fe with Corrosion Resistance 80.00 Si 8.57 B 10.48 C 0.20 Cr 0.75 (at%), denoted as Y3. Its preparation method comprises the following steps:

[0055] 1) Ingredients: Fe with a purity of 99.999wt%, Si with a purity of 99.999wt%, FeB with a B content of 17.40wt%, FeC with a C content of 5wt%, and Cr with a purity of 99.99wt%, expressed according to the above alloy In the formula, the atomic percentage content is used for batching;

[0056] 2) Melting master alloy: Put the raw materials with good ratio into the quartz crucible. The raw materials are placed in the order of the melting point of the raw material components, that is, the alloy steel or alloy elements with low melting point in the raw material components are placed on the upper layer, and the melting point of the raw material components is higher. High alloy steel or alloy elements are placed in the lower layer, and impurity adsorbent B of 1.7% of the tota...

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Abstract

The invention relates to a novel iron-based amorphous soft magnetic alloy with corrosion resistance and a preparation method thereof. The alloy has an expression of FeaSibBcCdCre, wherein a, b, c, d and e respectively represent the atomic percentage content of corresponding components, a is 80, b is 7.5-9.5, c is 9-12, d is 0.2-2.0, e is 0.1-2.0, and a+b+c+d+e=100. The alloy has high saturated magnetic induction density BS (up to 1.64T), high effective magnetic permeability microE (up to 13096 at 1kHz) and high frequency stability, low coercivity Hc (a minimum of 2.008A / m) and good corrosion resistance, and also has the advantages of good formability, loose preparation process conditions, and low production cost.

Description

technical field [0001] The invention belongs to the technical field of amorphous alloys, and in particular relates to a novel iron-based amorphous soft magnetic alloy with corrosion resistance and a preparation method thereof. Background technique [0002] Amorphous materials belong to the national key new products of the "12th Five-Year Plan" and "13th Five-Year Plan" of the new material industry, and have the remarkable characteristics of green energy saving; especially iron-based amorphous alloys, which have high resistivity and high magnetic permeability, and The loss is very low (only equivalent to 1 / 3~1 / 5 of oriented silicon steel), and compared with silicon steel, the process is simple and no special processing is required, so it is considered to be an ideal core material for power transformers. However, compared with silicon steel, iron-based amorphous alloy still has its disadvantages, that is, the filling factor and saturation magnetic induction are relatively low....

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C45/02C22C33/06H01F1/153
Inventor 许晓飞李福山董晓源杨要轩王坦董晓磊李希涛李成华
Owner HENAN ZHONGYUE AMORPHOUS NEW MATERIALS
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