High magnetostriction coefficient Fe-Ga based thin strip and preparation method thereof

A technology of stretching and base thin strips, which is applied in the manufacture/assembly of magnetostrictive devices, material selection and coating for magnetostrictive devices, and can solve the problems of low magnetostrictive performance, Ga volatilization, and reduced magnetic Stretch coefficient and other issues

Active Publication Date: 2018-07-06
NORTHEASTERN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The introduction of surface segregation, on the one hand, increases the cost and requires high equipment precision. On the other hand, it must be annealed at 1200 ° C or higher to obtain perfect secondary recrystallization and eliminate the adverse effects of S elements on magnetic properties, resulting in serious Ga volatilization.
Although the Chinese patent CN 104711475A removes the dependence on surface segregation by adding 5% to 15% mol% Al and nitriding twice after hot rolling an...

Method used

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  • High magnetostriction coefficient Fe-Ga based thin strip and preparation method thereof
  • High magnetostriction coefficient Fe-Ga based thin strip and preparation method thereof
  • High magnetostriction coefficient Fe-Ga based thin strip and preparation method thereof

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Experimental program
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Effect test

Embodiment 1

[0098] High magnetostriction coefficient Fe-Ga base thin strip, its composition contains by weight percentage: C: 0.03%, Al: 0.03%, Nb: 0.25%, Cu: 0.5%, Mn: 0.08%, S: 0.02% , Sn: 0.06%, Mo: 0.5%, the balance is Fe and other unavoidable impurities, and the Ga content is shown in Table 1.

[0099] The preparation method of the above-mentioned high magnetostriction coefficient Fe-Ga base thin strip comprises the following steps:

[0100] Step 1, smelting:

[0101] According to the set composition of the thin strip in Table 1, it is cast after smelting at 1440-1600°C;

[0102] Step 2, hot rolling:

[0103] (1) Heat the billet to 1100-1280°C and keep it warm;

[0104] (2) hot-rolling the billet after heating and heat preservation, the rolling start temperature is 1150-1200 ℃, and obtain a hot-rolled plate with a thickness of 2.5 mm after cooling;

[0105] Step 3, pickling and cold rolling:

[0106] (1) pickling the hot-rolled plate;

[0107] (2) The hot-rolled plate after pic...

Embodiment 2

[0119] High magnetostriction coefficient Fe-Ga base thin strip, its composition and weight percentage content is Ga: 22.3%, other composition is shown in Table 2, the balance is Fe and other unavoidable impurities.

[0120] The preparation method of the above-mentioned high magnetostriction coefficient Fe-Ga base thin strip comprises the following steps:

[0121] Step 1, smelting:

[0122] According to the set composition of the thin strip in Table 2, it is cast after smelting at 1440-1600°C;

[0123] Step 2, hot rolling:

[0124] (1) Heat the billet to 1100-1250°C and keep it warm;

[0125] (2) hot-rolling the billet after heating and heat preservation, the rolling start temperature is 1100-1200°C, and obtain a hot-rolled plate with a thickness of 2.3 mm after cooling;

[0126] Step 3, pickling and cold rolling:

[0127] (1) pickling the hot-rolled plate;

[0128] (2) The hot-rolled plate after pickling is carried out cold-rolled, adopts the cold-rolled thin strip of 0.2...

Embodiment 3

[0142] High magnetostriction coefficient Fe-Ga base thin strip, its composition contains by weight percentage: Ga: 20.4%, C: 0.05%, Nb: 0.1%, Cu: 0.2%, Mn: 0.08%, S: 0.015% ,, Mo: 0.05%, Tb: 0.3, the balance is Fe and other unavoidable impurities, and the Al content varies as shown in Table 3.

[0143] The preparation method of the above-mentioned high magnetostriction coefficient Fe-Ga base thin strip comprises the following steps:

[0144] Step 1, smelting:

[0145] According to the set composition of the thin strip in Table 3, it is cast after smelting at 1440-1600°C;

[0146] Step 2, hot rolling:

[0147] (1) Heat the billet to 1100-1280°C and keep it warm;

[0148] (2) hot-rolling the slab after heating and heat preservation, the rolling start temperature is 1150°C, and obtain a 4mm thick hot-rolled plate after cooling;

[0149] Step 3, pickling and cold rolling:

[0150] (1) hot rolling is carried out pickling to remove scale;

[0151] (2) The hot-rolled sheet is r...

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Abstract

The invention relates to a high magnetostriction coefficient Fe-Ga based thin strip and a preparation method thereof. According to the high magnetostriction coefficient Fe-Ga based thin strip and thepreparation method thereof, slabs of die casting, slab continuous casting, thin slab continuous casting and thin strip continuous casting are adopted, and simple and efficient scale production can berealized by using traditional rolling and annealing processes; an inhibitor system of low temperature intrinsic inhibitors and nitriding is established, and heat treatment and the rolling process arecontrolled to precipitate fine Cu2S, Nb(C,N) and V(C,N) or composite precipitates thereof as main intrinsic inhibitors; when the intrinsic inhibition is insufficient, nitriding is used for supplementing and forming nitrides such as AIN or BN before the secondary recrystallization annealing to achieve flexible control of the inhibition; cold rolling parameters are fine controlled to ensure primaryrecrystallization to obtain fine and uniform organizations and favorable textures, the coordinated matching of the organizations, the textures and the inhibitors before secondary recrystallization isachieved, and perfect and sharp secondary recrystallization of texture Goss ({110}(001)) is obtained. The magnetostriction coefficient (3/2) lambda s of a Fe-Ga based thin strip finished product is ashigh as 220-370ppm.

Description

technical field [0001] The invention belongs to the technical field of magnetic materials, and in particular relates to a high magnetostriction coefficient Fe-Ga base thin strip and a preparation method thereof. Background technique [0002] Magnetostrictive materials refer to smart materials whose length changes under the action of a magnetic field to generate displacement and work, or repeatedly elongates and shortens under an alternating magnetic field to generate vibration or sound waves, thereby converting electromagnetic energy into mechanical energy or sound energy. It is widely used in high-tech fields such as sonar underwater acoustic transducers, electroacoustic transducers, marine exploration and development, micro-displacement drives, vibration reduction and anti-vibration, intelligent mechanisms and automation, and is an important energy and information conversion Material. [0003] Magnetostrictive materials mainly include rare earth giant magnetostrictive mat...

Claims

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Application Information

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IPC IPC(8): C22C38/06C22C38/12C22C38/04C22C38/60C21D8/12C23C8/26C23C8/80H01L41/20H01L41/47
CPCC21D8/1222C21D8/1255C21D8/1272C22C38/001C22C38/002C22C38/005C22C38/008C22C38/04C22C38/06C22C38/12C22C38/60C23C8/26C23C8/80H10N35/85H10N35/01
Inventor 沙玉辉雷蕃左良张芳和正华
Owner NORTHEASTERN UNIV
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