CN108559926A - A kind of preparation method of Fe-based amorphous band and preparation method thereof and high frequency high magnetic permeability nanometer crystal alloy - Google Patents

Abstract

The present invention provides a kind of Fe-based amorphous bands, based on molfraction, including following components：67~74.2 parts of Fe, 16~19.2 parts of Si, 6.5~8.5 parts of B, 2.0~3.0 parts of Nb, 0.2~1 part of V, 1.0~1.3 parts of Cu and 0.1~2.2 part of Co.Fe-based amorphous band provided by the invention, contains higher silicon so that alloy is conducive to obtain high magnetic permeability；And the residual magnetic flux density Br of alloy after twin-stage subsequent annealing is advantageously reduced in conjunction with V and Co in limited component containing lower boron, and then improves Effective permeability of the alloy under the high frequency of 100KHz.Fe-based amorphous band provided by the invention is not necessarily to combine transverse magnetic field condition, it is only necessary to can be obtained nanocrystalline structure using twin-stage subsequent annealing, have high frequency high magnetic permeability with the alloy that this is obtained.

Description

A kind of Fe-based amorphous band and preparation method thereof and high frequency high magnetic permeability nanometer crystal alloy Preparation method

Technical field

The invention belongs to technical field of magnetic materials more particularly to a kind of Fe-based amorphous band and preparation method thereof and high frequencies The preparation method of high magnetic permeability nanometer crystal alloy.

Background technology

Iron-base nanometer crystal alloy is that have high magnetic permeability and low damage by a kind of obtained from subsequent annealing by non-crystaline amorphous metal The novel magnetically soft alloy of consumption.Conventional iron-base nanometer crystal alloy magnetic core is by typical national standard ingredient Fe73.5Si13.5B9Nb3Cu1 Amorphous alloy ribbon is after being wound into magnetic core, then obtained from optimizing annealing process, effective magnetic under 1KHz frequencies Conductance can reach 100,000 or so.

With the development of modern industry, it is desirable to which soft magnetic materials, such as 10KHz to 100KHz, has within the scope of higher frequency Higher magnetic conductivity.The prior art makes full use of transverse magnetic field annealing process that can effectively reduce the excellent of residual magnetic flux density Gesture is annealed using vacuum transverse magnetic field, improves the magnetic conductivity under iron-base nanometer crystal alloy magnetic core high frequency condition：Have under 1KHz frequencies Effect magnetic conductivity, which can reach Effective permeability under 200,000 or so, 10KHz frequencies, can reach 60,000 or more, and under 100KHz frequencies Effective permeability highest can reach 2.8 ten thousand.

But when carrying out transverse magnetic field annealing, in order to obtain larger transverse field strength, need to use 500A~800A High current, huge energy consumption.

Also, in high frequency high permeability magnetic core preparation process, magnetic core is when carrying out transverse magnetic field annealing, due to Lorentz force Effect, can be moved in magnetic field.Conventional solution is that magnetic core is through on stainless steel rod, be used in combination copper wire or The metal wire of other no magnetic fixes the both ends of magnetic core, and then magnetic core is made to avoid that movement transversely or longitudinally occurs.But it deposits In complex process, yield is small, the problem that industrial production efficiency is low and production cost is high.

Invention content

In view of this, the purpose of the present invention is to provide be used to prepare the Fe-based amorphous of high frequency high magnetic permeability nanometer crystal alloy The preparation method of band and preparation method thereof and high frequency high magnetic permeability nanometer crystal alloy, Fe-based amorphous band provided by the invention, It is only necessary to insulation annealings, can be obtained high frequency high magnetic permeability without the annealing of vacuum transverse magnetic field.

In order to achieve the above-mentioned object of the invention, the present invention provides following technical scheme：

The present invention provides a kind of Fe-based amorphous bands, based on molfraction, including following components：67~74.2 parts Fe, 16~19.2 parts of Si, 6.5~8.5 parts of B, 2.0~3.0 parts of Nb, 0.2~1 part of V, 1.0~1.3 parts of Cu and 0.1~2.2 part of Co.

Preferably, the thickness of the Fe-based amorphous band is 18~24 μm.

The present invention provides the preparation methods of the Fe-based amorphous band described in above-mentioned technical proposal, including：To include described The master alloy that Fe-based amorphous band limits composition carries out getting rid of tape handling, obtains Fe-based amorphous band.

The present invention also provides a kind of preparation methods of high frequency high magnetic permeability nanometer crystal alloy, including：

(1) the Fe-based amorphous band described in above-mentioned technical proposal is provided；

(2) the Fe-based amorphous band is subjected to classification subsequent annealing, obtains high frequency high magnetic permeability nanometer crystal alloy；It is described Classification subsequent annealing under magnetic field condition without carrying out.

Preferably, the classification subsequent annealing carries out under vacuum.

Preferably, the Fe-based amorphous band is carried out to primary subsequent annealing, heating and secondary crystallization annealing successively.

Preferably, the temperature of the primary subsequent annealing is 470~480 DEG C, and the time of the primary subsequent annealing is 120 ~150min.

Preferably, the temperature of the secondary crystallization annealing is 530~560 DEG C, and the time of the secondary crystallization annealing is 120 ~180min.

Preferably, the rate of the heating is 1~3 DEG C/min.

Preferably, before the classification subsequent annealing, further include：The Fe-based amorphous band is wound processing, is obtained Fe-based amorphous magnetic core；

After the Fe-based amorphous magnetic core is carried out classification subsequent annealing, obtained high frequency high magnetic permeability nanometer crystal alloy is High frequency high magnetic permeability nanocrystalline magnet core.

The present invention provides a kind of Fe-based amorphous bands, based on molfraction, including following components：67~74.2 parts Fe, 16~19.2 parts of Si, 6.5~8.5 parts of B, 2.0~3.0 parts of Nb, 0.2~1 part of V, 1.0~1.3 parts of Cu and 0.1~2.2 part of Co.Fe-based amorphous band provided by the invention, the silicon containing high-content in component so that alloy has high Magnetic conductivity, while there is lower Induced Anisotropy, thus can anneal without transverse magnetic field, it may have higher magnetic Conductance；Boron containing lower content in alloy compositions is being conducive to obtain low residual magnetic induction after twin-stage subsequent annealing Intensity Br, while brittleness caused by silicone content height can also be reduced, increase the toughness of amorphous band.Containing certain in alloy compositions The V and Co of amount can inhibit the phenomenon that increase caused hysteresis loop wideization with frequency, and then improve alloy 100KHz's Effective permeability under high frequency.When preparing nanometer crystal alloy by annealing, Fe-based amorphous band provided by the invention is without knot Close transverse magnetic field condition, it is only necessary to which the nanometer crystal alloy obtained using classification subsequent annealing is had under high frequency condition with higher Imitate magnetic conductivity.Embodiment the result shows that, Fe-based amorphous band provided by the invention, it is thus only necessary to insulation annealing, without The annealing of vacuum transverse magnetic field can be obtained under 10KHz frequencies, and Effective permeability is not less than 80000；Under 100KHz frequencies, effective magnetic Conductance is up to 30000.

Description of the drawings

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is the XRD testing result figures of Fe-based amorphous band in the embodiment of the present invention 1；

Fig. 2 is the XRD testing result figures of Fe-based amorphous band in the embodiment of the present invention 2；

Fig. 3 is the XRD testing result figures of Fe-based amorphous band in the embodiment of the present invention 3；

Fig. 4 is the XRD testing result figures of Fe-based amorphous band in the embodiment of the present invention 4；

Fig. 5 is the XRD testing result figures of Fe-based amorphous band in the embodiment of the present invention 5.

Specific implementation mode

The present invention provides a kind of Fe-based amorphous bands, based on molfraction, including following components：67~74.2 parts Fe, 16~19.2 parts of Si, 6.5~8.5 parts of B, 2.0~3.0 parts of Nb, 0.2~1 part of V, 1.0~1.3 parts of Cu and 0.1~2.2 part of Co.

Provided by the present invention for preparing the Fe-based amorphous band of high frequency high magnetic permeability nanometer crystal alloy, with molfraction Meter, includes 67~74.2 parts of Fe, preferably 66.5~71.5 parts, further preferably 66.8~71.0 parts, more preferably 69 ~70 parts.

Based on the Fe of the molar part, Fe-based amorphous band provided by the invention includes 16~19.2 parts of Si, excellent It is selected as 16.5~19.0 parts, further preferably 17~18.8 parts, more preferably 17.5~18.5 parts, most preferably 18 parts.

Based on the Fe of the molar part, Fe-based amorphous band provided by the invention includes 6.5~8.5 parts of B, excellent It is selected as 6.6~8.0 parts, further preferably 6.65~7.5 parts, more preferably 6.7~7.0 parts, most preferably 6.8~6.9 parts.

Based on the Fe of the molar part, Fe-based amorphous band provided by the invention includes 2.0~3.0 parts of Nb, excellent It is selected as 2.1~2.4 parts, further preferably 2.15~2.35 parts, more preferably 2.2~2.3 parts.In the present invention, the iron Contain lower boron and niobium in base amorphous band in alloy compositions, be conducive to alleviate silicone content it is higher caused by brittleness is larger asks Topic.

Based on the Fe of the molar part, Fe-based amorphous band provided by the invention includes 0.2~1 part of V, preferably It is 0.3~0.8 part, further preferably 0.4~0.7 part, more preferably 0.5~0.6 part.

Based on the Fe of the molar part, Fe-based amorphous band provided by the invention includes 1.0~1.3 parts of Cu, excellent It is selected as 1.05~1.25 parts, further preferably 1.1~1.2 parts, more preferably 1.15 parts.

Based on the Fe of the molar part, Fe-based amorphous band provided by the invention includes 0.1~2.2 part of Co, excellent It is selected as 0.2~2.0 part, further preferably 0.5~1.5 part, more preferably 0.8~1.0 part.

In the present invention, the thickness of the Fe-based amorphous band is preferably 18~24 μm, further preferably 18~22 μm, More preferably 19~20 μm.The present invention can obtain Fe-based amorphous band of the thickness in 19~20 μ ms, this both can guarantee Industrial high efficiency, and can guarantee that there is high Effective permeability in high frequency.

The present invention provides the preparation methods of the Fe-based amorphous band described in above-mentioned technical proposal, including：To include described The master alloy that Fe-based amorphous band limits composition carries out getting rid of tape handling, obtains Fe-based amorphous band.

In the present invention, the master alloy is preferably obtained by the way of voluntarily preparing.The present invention is to the master alloy Preparation process does not have particular/special requirement, and melting is carried out using Frequency Induction Heating technique well-known to those skilled in the art.At this In invention, the preparation method of the master alloy preferably includes：The metal of the Fe-based amorphous band restriction composition and ratio will be met It casts after raw material melting.The present invention does not have particular/special requirement to the type and dosage of the raw metal, described in it can meet The component that Fe-based amorphous band limits.

In the present invention, the melting and casting preferably carry out under air atmosphere or vacuum environment.The present invention is to described The specific implementation form of melting and casting does not have particular/special requirement, using melting well-known to those skilled in the art and casting mode .In an embodiment of the present invention, the melting specifically carries out in intermediate frequency furnace.

The present invention does not have particular/special requirement to the mode for getting rid of tape handling, and band is got rid of using well-known to those skilled in the art Mode.The present invention preferably melts the master alloy after obtaining molten steel, carries out the molten steel getting rid of band using band machine is got rid of, obtain To Fe-based amorphous band.In an embodiment of the present invention, the band machine that gets rid of is specially that pressure list roller gets rid of band machine.

The present invention is preferably 0.02~0.3MPa using spray packet pressure when band machine get rid of band is got rid of, and further preferably 0.05 ~0.2MPa, more preferably 0.1~0.2MPa.The present invention uses the die gap width for getting rid of spray packet when get rid of band with machine preferred For 0.3~0.5mm, further preferably 0.4mm.The present invention using get rid of copper roller linear velocity when band machine carries out getting rid of band be preferably 15~ 30m/s, further preferably 20~25m/s, more preferably 20m/s.The present invention is using the temperature for getting rid of molten steel when carrying out getting rid of band with machine Preferably 1320~1480 DEG C of degree, further preferably 1350~1450 DEG C, more preferably 1380~1400 DEG C.

The present invention provides a kind of preparation methods of high frequency high magnetic permeability nanometer crystal alloy, including：

(1) the Fe-based amorphous band described in above-mentioned technical proposal is provided；

(2) the Fe-based amorphous band is subjected to classification subsequent annealing, obtains high frequency high magnetic permeability nanometer crystal alloy；It is described Classification subsequent annealing under magnetic field condition without carrying out.

In the present invention, the preparation method of the Fe-based amorphous band preferably includes following steps：It will include the iron-based The master alloy that amorphous band limits composition carries out getting rid of tape handling, obtains Fe-based amorphous band.In the present invention, described Fe-based amorphous The preparation method of band is consistent with the preparation method of Fe-based amorphous band described in above-mentioned technical proposal, and details are not described herein.

The Fe-based amorphous band is carried out classification subsequent annealing by the present invention, obtains high frequency high magnetic permeability nanometer crystal alloy. In the present invention, the classification subsequent annealing preferably carries out under vacuum, and the vacuum degree of the vacuum condition is preferably small In 5Pa, further preferably 1~4Pa.

In the present invention, the classification subsequent annealing preferably includes：The Fe-based amorphous band is carried out to primary crystalline substance successively Annealing, heating and secondary crystallization annealing.

In the present invention, the temperature of the primary subsequent annealing is preferably 470~480 DEG C, further preferably 472~ 475℃；The time of the primary subsequent annealing is preferably 120~150min, further preferably 125~145min, more preferably For 130~140min.In the present invention, the primary subsequent annealing makes non-crystaline amorphous metal less than crystallization temperature by inoculation(effect) Occur in the case of degree it is partially-crystallized, to discharging a part of crystallization latent heat in advance, due to crystalline substance when weakening subsequent secondary crystallization annealing Change band caused by latent heat treatment from warming phenomenon.

After completing the primary subsequent annealing, the alloy after the primary subsequent annealing is preferably warming up to two level by the present invention After subsequent annealing temperature, secondary crystallization annealing is carried out.In the present invention, the rate of the heating is preferably 1~3 DEG C/min, into One step is preferably 1.5~2 DEG C/min.In the present invention, the temperature of the secondary crystallization annealing is preferably 530~560 DEG C, into one Preferably 535~555 DEG C, more preferably 540~550 DEG C of step；The time of secondary crystallization annealing is preferably 120~ 180min, further preferably 125~175min, more preferably 130~160min, most preferably 150min.

In the present invention, the secondary crystallization annealing makes non-crystaline amorphous metal that the two-phase knot that crystallization becomes amorphous plus nano crystalline substance occur Structure, to have high magnetic permeability characteristic.

In the present invention, when needing to prepare high frequency high magnetic permeability nanocrystalline magnet core, before the classification subsequent annealing, preferably Further include：The Fe-based amorphous band is wound processing, obtains Fe-based amorphous magnetic core；By the Fe-based amorphous magnetic core according to After the classification crystallization degenerate version that above-mentioned technical proposal limits carries out classification subsequent annealing, obtained high frequency high magnetic permeability is nanocrystalline Alloy is high frequency high magnetic permeability nanocrystalline magnet core.The present invention does not have particular/special requirement to the winding processing mode, using ability Magnetic core winding method known to field technique personnel.The present invention is to the size of the obtained Fe-based amorphous magnetic core without spy It is different to require, using magnetic core size well-known to those skilled in the art.In an embodiment of the present invention, the magnetic core is specific For outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm.

After completing the classification subsequent annealing, the present invention preferably cools down the alloy after the classification subsequent annealing, Obtain high frequency high magnetic permeability nanometer crystal alloy.The present invention does not have particular/special requirement to the mode of the cooling, using art technology The type of cooling known to personnel.In the present invention, the alloy temperature after cooling is preferably 300 DEG C or less.

The present invention provides a kind of Fe-based amorphous bands being used to prepare high frequency high magnetic permeability nanometer crystal alloy, by molar part Number meter, including following components：67~74.2 parts of Fe, 16~19.2 parts of Si, 6.5~8.5 parts of B, 2.0~3.0 parts of Nb, 0.2~1 part of V, 1.0~1.3 parts of Cu and 0.1~2.2 part of Co.

It is wound to obtain after magnetic core after twin-stage subsequent annealing using Fe-based amorphous amorphous band provided by the invention, is significantly carried Effective permeability of the height under high frequency condition：Under 10KHz frequencies, Effective permeability is not less than 80000；Under 100KHz frequencies, have It imitates magnetic conductivity and is not less than 30000.

The inductance value of magnetic core is directly proportional to Effective permeability, for inductance manufacturing enterprise, using the effective magnetic conductance of higher The amorphous band of rate can effectively reduce magnetic core weight, reduce copper wire dosage, reduce production cost, and help to obtain To volume smaller, the higher inductance of inductance value, the high frequency, high efficiency and miniaturization of electronics and electrical equipment industry may advantageously facilitate.

Fe-based amorphous band provided by the invention need not carry out vacuum transverse magnetic annealing, it is thus only necessary to insulation annealing, i.e., High frequency high permeability magnetic core can be obtained, it is simple for process, and it is low to consume energy, and compares vacuum transverse magnetic field method for annealing, magnetic core per ton At least reduce by 5,000 yuan of process costs.

Fe-based amorphous band provided by the invention and preparation method thereof and high frequency high magnetic permeability are received with reference to embodiment The preparation method of rice peritectic alloy is described in detail, but they cannot be interpreted as limiting the scope of the present invention.

Embodiment 1

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16~18%), ferro-niobium (niobium content 64-66%), vanadium iron (vanadium content 50 ~55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including described Fe-based amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：69.5 parts of iron, silicon 16.5 Part, 8.5 parts of boron, 3.0 parts of niobium, 1.0 parts of vanadium, 1.3 parts of copper and 0.2 part of cobalt, i.e. master alloy group is divided into Fe_69.5Si_16.5B_8.5Nb_3.0V_1.0Cu_1.3Co_0.2。

After master alloy is melted, band machine is got rid of using pressure list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1320 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 0.2 part of 69.5 parts, 16.5 parts of silicon, 8.5 parts of boron, 3.0 parts of niobium, 1.0 parts of vanadium, 1.3 parts of copper and cobalt, i.e., the alloy of Fe-based amorphous band Group is divided into Fe_69.5Si_16.5B_8.5Nb_3.0V_1.0Cu_1.3Co_0.2。

The thickness for the Fe-based amorphous band being prepared is 19 ± 1 μm, and the lamination coefficient of amorphous band is 0.82, and to system Standby obtained Fe-based amorphous band has carried out XRD detections, and the results are shown in Figure 1.As shown in Figure 1, XRD diffracting spectrums are at 44.5 degree It nearby is rendered as an apparent broad peak, shows that the structure of band is amorphous state.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 480 DEG C, 550 DEG C of heat preservations 120 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, and referred to as nanometer crystal alloy goes out High frequency high magnetic permeability nanocrystalline magnet core is obtained after stove, thus after coming out of the stove.

Magnetism testing is carried out to the high frequency high magnetic permeability nanocrystalline magnet core being prepared：When test frequency is 10KHz, electricity Inductance value is 75 μ H, and Effective permeability is 120,000；When test frequency is 100KHz, inductance value is 20.5 μ H, Effective permeability 3.3 Ten thousand；Coercivity H=0.45A/m under static conditions.

Embodiment 2

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16~18%), ferro-niobium (niobium content 64~66%), vanadium iron (vanadium content 50 ~55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including described Fe-based amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：70.5 parts of iron, 17 parts of silicon, 0.8 part of 7.5 parts of boron, 2.5 parts of niobium, 0.5 part of vanadium, 1.3 parts of copper and cobalt, i.e. master alloy group is divided into Fe_70.5Si₁₇B_7.5Nb_2.5V_0.5Cu_1.2Co_0.8。

After master alloy is melted, band machine is got rid of using pressure list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1380 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 0.8 part of 70.5 parts, 17 parts of silicon, 7.5 parts of boron, 2.5 parts of niobium, 0.5 part of vanadium, 1.3 parts of copper and cobalt, i.e., the alloy group of Fe-based amorphous band It is divided into Fe_70.5Si₁₇B_7.5Nb_2.5V_0.5Cu_1.2Co_0.8。

The thickness for the Fe-based amorphous band being prepared is 22 ± 1 μm, and the lamination coefficient of amorphous band is 0.82, same right The Fe-based amorphous band being prepared has carried out XRD detections, and the results are shown in Figure 2.As shown in Figure 2, XRD diffracting spectrums are 44.5 Degree is nearby rendered as an apparent broad peak, shows that the structure of band is amorphous state.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 480 DEG C, 540 DEG C of heat preservations 120 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, and referred to as nanometer crystal alloy goes out High frequency high magnetic permeability nanocrystalline magnet core is obtained after stove, thus after coming out of the stove.

Magnetism testing is carried out to the high frequency high magnetic permeability nanocrystalline magnet core being prepared：When test frequency is 10KHz, electricity Inductance value is 66 μ H, and Effective permeability is 10.5 ten thousand；When test frequency is 100KHz, inductance value is 18 μ H, Effective permeability 2.9 Ten thousand；Coercivity H=0.62A/m under static conditions.

Embodiment 3

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16-18%), ferro-niobium (niobium content 64-66%), vanadium iron (vanadium content 50- 55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including the iron Base amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：73.2 parts of iron, 17.5 parts of silicon, 0.1 part of 7.0 parts of boron, 2.0 parts of niobium, 0.2 part of vanadium, 1.0 parts of copper and cobalt, i.e. master alloy group is divided into Fe_73.2Si_17.5B_7.0Nb_2.0V_0.2Cu_1.0Co_0.1。

After master alloy is melted, band machine is got rid of using pressure list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1480 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 0.1 part of 73.2 parts, 17.5 parts of silicon, 7.0 parts of boron, 2.0 parts of niobium, 0.2 part of vanadium, 1.0 parts of copper and cobalt, i.e., the alloy of Fe-based amorphous band Group is divided into Fe_73.2Si_17.5B_7.0Nb_2.0V_0.2Cu_1.0Co_0.1。

The thickness for the Fe-based amorphous band being prepared is 20 ± 1 μm, and the lamination coefficient of amorphous band is 0.82, same right The Fe-based amorphous band being prepared has carried out XRD detections, and the results are shown in Figure 3.From the figure 3, it may be seen that XRD diffracting spectrums are 44.5 Degree is nearby rendered as an apparent broad peak, shows that the structure of band is amorphous state.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 475 DEG C, 550 DEG C of heat preservations 120 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, and referred to as nanometer crystal alloy goes out High frequency high magnetic permeability nanocrystalline magnet core is obtained after stove, thus after coming out of the stove.

Magnetism testing is carried out to the high frequency high magnetic permeability nanocrystalline magnet core being prepared：When test frequency is 10KHz, electricity Inductance value is 62 μ H, and Effective permeability is 100,000；When test frequency is 100KHz, inductance value is 17.5 μ H, Effective permeability 2.8 Ten thousand；Coercivity H=0.86A/m under static conditions.

Embodiment 4

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16-18%), ferro-niobium (niobium content 64-66%), vanadium iron (vanadium content 50- 55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including the iron Base amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：71.7 parts of iron, 18 parts of silicon, boron 0.5 part of 6.5 parts, 2.0 parts of niobium, 0.2 part of vanadium, 1.1 parts of copper and cobalt, i.e. master alloy group is divided into Fe_71.7Si₁₈B_6.5Nb_2.0V_0.2Cu_1.1Co_0.5。

After master alloy is melted, band machine is got rid of using pressure list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1420 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 0.5 part of 71.7 parts, 18 parts of silicon, 6.5 parts of boron, 2.0 parts of niobium, 0.2 part of vanadium, 1.1 parts of copper and cobalt, i.e., the alloy group of Fe-based amorphous band It is divided into Fe_71.7Si₁₈B_6.5Nb_2.0V_0.2Cu_1.1Co_0.5。

The thickness for the Fe-based amorphous band being prepared is 19 ± 1 μm, and the lamination coefficient of amorphous band is 0.82, same right The Fe-based amorphous band being prepared has carried out XRD detections, and the results are shown in Figure 4.As shown in Figure 4, XRD diffracting spectrums are 44.5 Degree is nearby rendered as an apparent broad peak, shows that the structure of band is amorphous state.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 470 DEG C, 540 DEG C of heat preservations 120 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, and referred to as nanometer crystal alloy goes out High frequency high magnetic permeability nanocrystalline magnet core is obtained after stove, thus after coming out of the stove.

Magnetism testing is carried out to the high frequency high magnetic permeability nanocrystalline magnet core being prepared：When test frequency is 10KHz, electricity Inductance value is 69 μ H, and Effective permeability is 110,000；When test frequency is 100KHz, inductance value is 20 μ H, Effective permeability 3.2 Ten thousand；Coercivity H=0.53A/m under static conditions.

Embodiment 5

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16-18%), ferro-niobium (niobium content 64-66%), vanadium iron (vanadium content 50- 55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including the iron Base amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：67 parts of iron, 19 parts of silicon, boron 8.0 Part, 3.0 parts of niobium, 0.5 part of vanadium, 1.0 parts of copper and 1.5 parts of cobalt, i.e. master alloy group is divided into Fe₆₇Si₁₉B_8.0Nb_3.0V_0.5Cu_1.0Co_1.5。

After master alloy is melted, band machine is got rid of using pressure list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1320 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 1.5 parts of 67 parts, 19 parts of silicon, 8.0 parts of boron, 3.0 parts of niobium, 0.5 part of vanadium, 1.0 parts of copper and cobalt, i.e., the alloy compositions of Fe-based amorphous band For Fe₆₇Si₁₉B_8.0Nb_3.0V_0.5Cu_1.0Co_1.5。

The thickness for the Fe-based amorphous band being prepared is 24 ± 1 μm, and the lamination coefficient of amorphous band is 0.82, same right The Fe-based amorphous band being prepared has carried out XRD detections, and the results are shown in Figure 5.As shown in Figure 5, XRD diffracting spectrums are 44.5 Degree is nearby rendered as an apparent broad peak, shows that the structure of band is amorphous state.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 470 DEG C, 530 DEG C of heat preservations 180 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, and referred to as nanometer crystal alloy goes out High frequency high magnetic permeability nanocrystalline magnet core is obtained after stove, thus after coming out of the stove.

Magnetism testing is carried out to the high frequency high magnetic permeability nanocrystalline magnet core being prepared：When test frequency is 10KHz, electricity Inductance value is 62 μ H, and Effective permeability is 100,000；When test frequency is 100KHz, inductance value is 16.8 μ H, Effective permeability 2.7 Ten thousand；Coercivity H=0.92A/m under static conditions.

Comparative example 1：

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16-18%), ferro-niobium (niobium content 64-66%), vanadium iron (vanadium content 50- 55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including the iron Base amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：73.5 parts of iron, 15.5 parts of silicon, 1.0 parts of 7 parts of boron, 3 parts of niobium and copper, i.e. master alloy group is divided into Fe_73.5Si_15.5B₇Nb₃Cu₁。

After master alloy is melted, band machine is got rid of using pressure list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1420 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 1.0 parts of 73.5 parts, 15.5 parts of silicon, 7 parts of boron, 3 parts of niobium and copper, i.e. master alloy group is divided into Fe_73.5Si_15.5B₇Nb₃Cu₁。

The thickness for the Fe-based amorphous band being prepared is 20 ± 1 μm, and the lamination coefficient of amorphous band is 0.82.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 470 DEG C, 550 DEG C of heat preservations 150 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, referred to as nanometer crystal alloy.

Magnetism testing is carried out to the nanocrystalline magnet core being prepared：When test frequency is 10KHz, inductance value is 50 μ H, Effective permeability is 80,000；When test frequency is 100KHz, inductance value is 8 μ H, and Effective permeability is 1.3 ten thousand；It is rectified under static conditions Stupid power Hc=0.62A/m.

Comparative example 2：

Using intermediate frequency furnace, the raw metal of the Fe-based amorphous band restriction component proportion will be met：Electrical pure iron (> 99.9%), metallic silicon (>99%), ferro-boron (boron content 16~18%), ferro-niobium (niobium content 64~66%), vanadium iron (vanadium content 50 ~55%), fine copper (>99.9%) and pure cobalt (>99.9%) it, casts after melting under vacuum conditions, obtains including described Fe-based amorphous band limits the master alloy of component, wherein the molfraction of each metallic element is respectively：69.5 parts of iron, silicon 16.5 Part, 8.5 parts of boron, 3.0 parts of niobium, 1.0 parts of vanadium, 1.3 parts of copper and 0.2 part of cobalt, i.e. master alloy group is divided into Fe_69.5Si_16.5B_8.5Nb_3.0V_1.0Cu_1.3Co_0.2。

After master alloy is melted, band machine is got rid of using gravity list roller and carries out getting rid of tape handling, the temperature of alloy solution when getting rid of band It is 1320 DEG C.It gets rid of band and obtains Fe-based amorphous band, wherein the molfraction of each metallic element is respectively in Fe-based amorphous band：Iron 0.2 part of 69.5 parts, 16.5 parts of silicon, 8.5 parts of boron, 3.0 parts of niobium, 1.0 parts of vanadium, 1.3 parts of copper and cobalt, i.e., the alloy of Fe-based amorphous band Group is divided into Fe_69.5Si_16.5B_8.5Nb_3.0V_1.0Cu_1.3Co_0.2。

The thickness for the Fe-based amorphous band being prepared is 30 ± 1 μm, and the lamination coefficient of amorphous band is 0.78.

Obtained Fe-based amorphous band is wound into outer diameter 32mm, internal diameter 20mm, the ring-shaped magnetic core of height 10mm, in vacuum Twin-stage subsequent annealing is carried out under environment：120 minutes are kept the temperature at 480 DEG C, 550 DEG C of heat preservations 120 are then raised to 1 DEG C/minute of speed Minute, it is then cooled to 200 DEG C or less and removes vacuum and come out of the stove, it will amorphous known to generation this field by above-mentioned annealing process The nano-crystallization process of alloy, the i.e. non-crystaline amorphous metal translate into amorphous/nanocrystalline double structure, referred to as nanometer crystal alloy.

Magnetism testing is carried out to the nanocrystalline magnet core being prepared：When test frequency is 10KHz, inductance value is 55 μ H, Effective permeability is 9.8 ten thousand；When test frequency is 100KHz, inductance value is 12 μ H, and Effective permeability is 2.1 ten thousand；Static conditions Lower coercivity H=0.48A/m.

As seen from the above embodiment, Fe-based amorphous band provided by the invention, it is thus only necessary to insulation annealing, without true Empty transverse magnetic field annealing can be obtained under 10KHz frequencies, and Effective permeability is not less than 80000；Under 100KHz frequencies, effective magnetic conductance Rate is up to 30000；It is stringent to use the Fe-based amorphous band for meeting thickness requirement, it is ensured that the raising of magnetic conductivity.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (10)

1. a kind of Fe-based amorphous band, based on molfraction, including following components：67~74.2 parts of Fe, 16~19.2 parts Si, 6.5~8.5 parts of B, 2.0~3.0 parts of Nb, 0.2~1 part of V, 1.0~1.3 parts of Cu and 0.1~2.2 part of Co.

2. Fe-based amorphous band according to claim 1, which is characterized in that the thickness of the Fe-based amorphous band be 18~ 24μm。

3. the preparation method of Fe-based amorphous band as claimed in claim 1 or 2, including：It will include the Fe-based amorphous band limit Surely the master alloy formed carries out getting rid of tape handling, obtains Fe-based amorphous band.

4. a kind of preparation method of high frequency high magnetic permeability nanometer crystal alloy, including：

(1) Fe-based amorphous band as claimed in claim 1 or 2 is provided；

(2) the Fe-based amorphous band is subjected to classification subsequent annealing, obtains high frequency high magnetic permeability nanometer crystal alloy；

The classification subsequent annealing under magnetic field condition without carrying out.

5. preparation method according to claim 4, which is characterized in that the classification subsequent annealing under vacuum into Row.

6. preparation method according to claim 4 or 5, which is characterized in that the classification subsequent annealing includes：By the iron Base amorphous band carries out primary subsequent annealing, heating and secondary crystallization annealing successively.

7. preparation method according to claim 6, which is characterized in that the temperature of the primary subsequent annealing is 470~480 DEG C, the time of the primary subsequent annealing is 120~150min.

8. preparation method according to claim 6, which is characterized in that the temperature of the secondary crystallization annealing is 530~560 DEG C, the time of the secondary crystallization annealing is 120~180min.

9. preparation method according to claim 6, which is characterized in that the rate of the heating is 1~3 DEG C/min.

10. preparation method according to claim 4, which is characterized in that before the classification subsequent annealing, further include：By institute It states Fe-based amorphous band and is wound processing, obtain Fe-based amorphous magnetic core；

After the Fe-based amorphous magnetic core is carried out classification subsequent annealing, obtained high frequency high magnetic permeability nanometer crystal alloy is high frequency High magnetic permeability nanocrystalline magnet core.