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High-carbon iron-based amorphous alloy transformer core and manufacturing method thereof

An iron-based amorphous alloy, transformer core technology, applied in the direction of transformer/inductor magnetic core, etc., can solve the problems of core temperature rise, insulation layer aging, loss increase, etc., to achieve less heat generation, not easy to aging, Low loss effect

Inactive Publication Date: 2014-07-23
由伟
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The transformer is mainly composed of an iron core and a coil. During the working process, the iron core will generate loss. This loss will convert part of the electric energy into heat energy, resulting in a great waste of power.
Moreover, this energy loss will also increase the temperature of the iron core. If the iron core works at high temperature for a long time, the insulating layer on its surface will age, further increasing the loss.

Method used

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  • High-carbon iron-based amorphous alloy transformer core and manufacturing method thereof

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] Example 1: Press figure 1 Shown, the production raw material and proportioning are:

[0034] Iron: 82%

[0035] Carbon: 6%

[0036] Silicon: 5%

[0037] Boron: 7%.

[0038] The manufacturing process of high carbon iron-based amorphous alloy transformer core is as follows:

[0039] (1) Weigh various raw materials as required;

[0040] (2) Crushing and grinding blocky raw materials;

[0041] (3) Put various raw materials into the container and mix and stir to make the ingredients uniform;

[0042] (4) Pour the uniformly mixed raw materials into a crucible and put them into a smelting furnace for smelting. The characteristics are: put the raw materials into the crucible, put them into the smelting furnace at room temperature, and raise the temperature with the furnace; the heating temperature is 1350 ° C, and the heat preservation time is 10 Hour;

[0043] (5) The alloy liquid is sprayed onto the cooling roller rotating at high speed, and the strip is thrown...

Embodiment 2

[0048] Example 2: Press figure 1 Shown, the production raw material and proportioning are:

[0049] Iron: 85%

[0050] Carbon: 5%

[0051] Silicon: 4%

[0052] Boron: 6%.

[0053] The manufacturing process of high carbon iron-based amorphous alloy transformer core is as follows:

[0054] (1) Weigh various raw materials as required;

[0055] (2) Crushing and grinding blocky raw materials;

[0056] (3) Put various raw materials into the container and mix and stir to make the ingredients uniform;

[0057] (4) Pour the uniformly mixed raw materials into a crucible and put them into a smelting furnace for smelting. The characteristics are: put the raw materials into the crucible, put them into the smelting furnace at room temperature, and raise the temperature with the furnace; the maximum heating temperature is 1400 ° C, and the heat preservation 8 hours;

[0058] (5) The alloy liquid is sprayed onto the cooling roller rotating at high speed, and the strip is thrown...

Embodiment 3

[0063] Embodiment 3: press figure 1 Shown, the production raw material and proportioning are:

[0064] Iron: 88%

[0065] Carbon: 6%

[0066] Silicon: 3%

[0067] Boron: 3%.

[0068] The manufacturing process of high carbon iron-based amorphous alloy transformer core is as follows:

[0069] (1) Weigh various raw materials as required;

[0070] (2) Crushing and grinding blocky raw materials;

[0071] (3) Put various raw materials into the container and mix and stir to make the ingredients uniform;

[0072] (4) Pour the uniformly mixed raw materials into the crucible and put them into the smelting furnace for smelting. The characteristics are: put the raw materials into the crucible, put them into the smelting furnace at room temperature, and raise the temperature with the furnace; the maximum heating temperature is 1450 ° C, and the heat preservation 15 hours;

[0073] (5) The alloy liquid is sprayed onto the cooling roller rotating at high speed, and the strip is...

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Abstract

The invention belongs to the production field of the power equipment and specifically relates to a high-carbon iron-based amorphous alloy transformer core and a manufacturing method thereof. The high-carbon iron-based amorphous alloy transformer core is characterized by being prepared from the raw materials of iron, carbon, silicon and boron by virtue of the following preparation steps: (1) weighing; (2) crushing and grinding; (3) mixing and stirring; (4) smelting; (5) melt-spinning; (6) annealing; (7) drawing and stamping; (8) stacking and fastening. The loss of the high-carbon iron-based amorphous alloy transformer core prepared by the manufacturing method in the working process is lower than that of an iron-based amorphous alloy core containing no carbon, and therefore, the waste of electric energy can be further reduced and the power supply efficiency can be improved; meanwhile, as the amount of heat generated by the core in the working process is low, an insulating material covering the core is less in ageing possibility and thus advantageous for increasing the service life of the transformer. The high-carbon iron-based amorphous alloy transformer core can be applied to the field of production of power equipment and has wide application prospect.

Description

technical field [0001] The invention belongs to the field of electric equipment production, in particular to a high-carbon iron-based amorphous alloy transformer core and a manufacturing method thereof. Background technique [0002] Transformer is a kind of power equipment that uses the principle of electromagnetic induction to change AC voltage. It can play the role of voltage conversion, current conversion, impedance conversion, isolation, voltage stabilization, etc. in the circuit. It is used in power supply, machinery manufacturing, metallurgy, mining, railways, etc. It has wide application in many fields. [0003] The transformer is mainly composed of an iron core and a coil. During the working process, the iron core will generate loss, which will cause part of the electric energy to be converted into heat energy, resulting in a great waste of power supply. Moreover, this energy loss will also increase the temperature of the iron core. If the iron core works at high te...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C45/02H01F27/24
Inventor 由伟刘亚秀陶匡衡
Owner 由伟
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