CN101603159A - Fe-Al-P-C-M bulk amorphous alloy with soft magnetic properties and preparation method thereof - Google Patents

Abstract

The invention discloses a kind of Fe-Al-P-C-M block amorphous alloy with soft magnetism, is to add metalloid element M in the Fe-Al-P-C block amorphous alloy, and this metalloid element M is meant the combination of B or Si or B+Si; The Fe-Al-P-C-B block amorphous alloy composition that wherein has soft magnetism is the B of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus; Fe-Al-P-C-Si block amorphous alloy composition with soft magnetism is the Si of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus; Fe-Al-P-C-B-Si block amorphous alloy composition with soft magnetism is the Si of B, 0.5～6at% of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus.The present invention has designed a kind of Fe-Al-P-C-M block amorphous alloy that does not contain Ga, Zr, Mo, Nb and Y etc. than precious metal element and rare earth element, and its material cost is cheap.

Description

Has Fe-Al-P-C-M block amorphous alloy of soft magnetism and preparation method thereof

Technical field

The present invention relates to a kind of iron-base block amorphous alloy, more particularly say, be meant a kind of Fe-Al-P-C-M block amorphous alloy that metalloid element M acquisition has soft magnetism that in the Fe-Al-P-C base, adds.

Background technology

Under existing processing condition, the non-crystaline amorphous metal for preparing by flash set technology has caused special mechanical properties, magnetic performance, corrosion resisting property and electrical property because of not possessing long-range atomic ordered structure.Therefore, the research of amorphous alloy material becomes a key areas of investigation of materials.Fe-based amorphous alloy has good magnetic performance because of its special constitutional features, and cheap relatively manufacturing cost and be widely used in fields such as range transformer, electromagnetic transducer spare.

Since P.Duwez in 1967 at first found Fe-P-C ternary amorphous alloy component, (C was that the non-crystaline amorphous metal system is able to development and application in succession Si) to a series of Fe-Metalloid such as Fe-B-Si, Fe-P-B and Fe-P-B-C for P, B.But owing to be subjected to the restriction of composition design and processes condition, the research at initial stage and product only limit to band, filament and powder.Therefore, the promotion and application of Fe base noncrystal alloy are subjected to great restriction.Up to nineteen ninety-five, Inoue etc. just Fe-Metalloid (C is on the basis of non-crystaline amorphous metal Si) for P, B, by add large size atom A l and Ga obtained Fe-(Al, Ga)-(P, C, B, Si) iron-base block amorphous alloy.Subsequently, and Fe-Metalloid such as Fe-Co-Ni-Zr-B, Fe-Mo-P-C-B, Fe-Si-B-Nb and Fe-Y-B (P, B, C, Si) base block amorphous alloy also obtains exploitation in succession.Though, Ga, Zr, Mo, Nb and Y etc. make Fe-Metalloid (P, B, C than the adding of precious metal element and rare earth element, Si) base noncrystal alloy can form millimetre-sized cylindrical rod sample, has improved greatly that non-crystaline amorphous metal in the past forms scarce capacity and the shortcoming that limits application; But even the atomic ratio of the add-on less than 5% of elements such as Ga, Zr, Mo, Nb and Y, their material cost has but occupied more than 90% of whole alloy raw material cost, and this has limited the widespread use of Fe-based amorphous alloy from another aspect.Therefore, designing a kind of with low cost, Fe base block amorphous alloy material that have higher amorphous formation ability and have a good soft magnetic performance is the inexorable trend of Fe-based amorphous alloy development.

Summary of the invention

The present invention is by adding the consumption that one or both metalloid elements M reduces P-C on Fe-Al-P-C block amorphous alloy basis, thereby improve the amorphous formation ability of Fe-Al-P-C block amorphous alloy, this metalloid element M can be the combination of B or Si or B+Si.

Fe-Al-P-C-B block amorphous alloy composition with soft magnetism of the present invention is: contain the B of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus.

Fe-Al-P-C-Si block amorphous alloy composition with soft magnetism of the present invention is: contain the Si of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus.

When metalloid element M was B+Si, the Fe-Al-P-C-B-Si block amorphous alloy composition with soft magnetism of the present invention was: contain the Si of B, 0.5～6at% of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus.

A kind of advantage with Fe-Al-P-C-M block amorphous alloy of soft magnetism of the present invention is:

(1) the present invention has designed a kind of Fe-Al-P-C-M block amorphous alloy that does not contain Ga, Zr, Mo, Nb and Y etc. than precious metal element and rare earth element, and its material cost is cheap.

(2) Fe-Al-P-C-M block amorphous alloy of the present invention has higher amorphous formation ability, and by flash set technology, can obtain critical diameter is the non-crystaline amorphous metal bar of 1.0mm～3.8mm, and has between the supercooling liquid phase region of 25k～45k.

(3) Fe-Al-P-C-M block amorphous alloy of the present invention has good soft magnetic performance, and its saturation induction density is not less than 1.30T, and has≤coercive force of 5.5A/m.

Description of drawings

Fig. 1 is the Fe that adopts the inventive method to prepare ₇₇Al ₃P ₉B ₂C ₉The XRD figure of block amorphous alloy.

Fig. 2 is the Fe that adopts the inventive method to prepare ₇₇Al ₃P ₉B ₂C ₉The DSC figure of block amorphous alloy.

Fig. 3 is the Fe that adopts the inventive method to prepare ₇₇Al ₃P ₉B ₂C ₉The OM figure of block amorphous alloy.

Fig. 4 is the Fe that adopts the inventive method to prepare ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy is saturation induction density figure after heat treatment.

Fig. 5 is the Fe that adopts the inventive method to prepare ₇₇Al ₃P ₉B ₂C ₉The coercive force change curve of block amorphous alloy.

Embodiment

The present invention is described in further detail below in conjunction with drawings and Examples.

The present invention is a kind of Fe-Al-P-C-M block amorphous alloy with soft magnetism, and metalloid element M can be the combination of B or Si or B+Si.

Fe-Al-P-C-B block amorphous alloy composition with soft magnetism of the present invention is: contain the B of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus, the atom percentage content of Fe-Al-P-C-B block amorphous alloy composition amounts to 100.

Fe-Al-P-C-Si block amorphous alloy composition with soft magnetism of the present invention is: contain the Si of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus, the atom percentage content of Fe-Al-P-C-Si block amorphous alloy composition amounts to 100.

When metalloid element M is B+Si, Fe-Al-P-C-B-Si iron-base block amorphous alloy composition with soft magnetism of the present invention is: contain the Si of B, 0.5～6at% of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus, the atom percentage content of Fe-Al-P-C-B-Si block amorphous alloy composition amounts to 100.

Preparing the step with Fe-Al-P-C-M block amorphous alloy of soft magnetism of the present invention has:

Step 1: batching

Nominal composition according to Fe-Al-P-C-M takes by weighing FeP, FeB, iron block, aluminium block, carbon-point and silico briquette, forms the raw material of preparation Fe-Al-P-C-M block amorphous alloy;

The mass percent purity of iron block is more than or equal to 99.8%;

The mass percent purity of aluminium block is more than or equal to 99.9%;

The mass percent purity of carbon-point is more than or equal to 99.99%;

The mass percent purity of silico briquette is more than or equal to 99.99%;

Step 2: master alloy melting

The raw material of step 1 weighing gained is put into vacuum induction melting furnace carry out melting, master alloy ingot is taken out in melting evenly back;

Melting condition: vacuum tightness is 3 * 10 in the stove of vacuum induction melting furnace when the melting raw material ^-1Pa～5 * 10 ^-3Pa, 1100 ℃～1600 ℃ of smelting temperatures, smelting time 5～15min;

Step 3: preparation Fe-based amorphous alloy block materials

The mother alloy that step 2 is prepared is put into the induction furnace of quick solidification apparatus, regulates induced current to 300mA～500mA, treats after mother alloy melts fully melt jet to be gone in the copper mold, obtains the Fe-Al-P-C-M block amorphous alloy with the copper mold cooling.

Embodiment 1:System Fe ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy

The Fe of system 18.728g with soft magnetism ₇₇Al ₃P ₉B ₂C ₉The step of block amorphous alloy has:

Step 1: batching

According to Fe ₇₇Al ₃P ₉B ₂C ₉Nominal composition take by weighing iron block, the aluminium block of 0.317g and the carbon-point of 0.423g of FeB, 12.507g of FeP, the 0.481g of 5.000g, form preparation Fe ₇₇Al ₃P ₉B ₂C ₉The raw material of block amorphous alloy;

The mass percent purity of iron block is more than or equal to 99.8%;

The mass percent purity of aluminium block is more than or equal to 99.9%;

The mass percent purity of carbon-point is more than or equal to 99.99%;

Step 2: master alloy melting

The raw material of step 1 weighing gained is put into vacuum induction melting furnace carry out melting, master alloy ingot is taken out in melting evenly back;

Melting condition: vacuum tightness is 3 * 10 in the stove of vacuum induction melting furnace when the melting raw material ^-2Pa, 1300 ℃ of smelting temperatures, smelting time 5min;

Step 3: preparation Fe-based amorphous alloy block materials

The mother alloy that step 2 is prepared is put into the induction furnace of quick solidification apparatus, regulates induced current to 410mA, treats after mother alloy melts fully melt jet to be gone in the copper mold, obtains Fe with the copper mold cooling ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy.

The Fe that embodiment 1 is made ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy is respectively through X-ray diffraction (XRD), differential scanning heat instrument (DSC) and optics Electronic Speculum (OM) comparative analysis.

That adopt as can be seen from XRD figure shown in Figure 1 that FeP, FeB, iron block, aluminium block and carbon-point make is Fe ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy.

Fe as can be seen from DSC figure shown in Figure 2 ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy has tangible Curie temperature 590K, glass transformation temperature 707K, crystallization temperature 749K.

Fe as can be seen from OM figure shown in Figure 3 ₇₇Al ₃P ₉B ₂C ₉The critical diameter of block amorphous alloy is the non-crystaline amorphous metal rod of 3.0mm and the thickness amorphous band greater than 0.05mm.

As can be seen from Figure 4 Fe ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy possesses good soft magnetic performance, and its saturation induction density is 1.36T.

As can be seen from Figure 5 Fe ₇₇Al ₃P ₉B ₂C ₉Block amorphous alloy coercive force after heat treatment is 2.1A/m.

Adopt the preparation method identical with embodiment 1 to make the Fe-Al-P-C-B block amorphous alloy of heterogeneity, its performance is as shown in the table:

Composition	Curie temperature	Glass transformation temperature	Crystallization temperature	Critical diameter	Saturation induction density	Coercive force
							Fe 77Al 3P 10B 1C 9	578	702	743	3.0	1.31	3.0
Fe 77Al 3P 8B 3C 9	599	712	752	3.0	1.37	3.0
							Fe 77Al 3P 7B 4C 9	609	717	752	2.5	1.37	2.7
Fe 77Al 3P 6B 5C 9	618	727	755	1.5	1.43	4.8
							Fe 77Al 3P 7B 5C 8	612	727	758	1.5	1.41	3.9
Fe 77Al 3P 8B 5C 7	605	730	761	2.0	1.37	3.8
							Fe 77Al 3P 10B 3C 7	589	715	753	2.5	1.42	4.1

Embodiment 2:System Fe ₇₅Al ₅P ₁₁C ₈Si ₁Block amorphous alloy

The Fe of preparation 15.319g with soft magnetism ₇₅Al ₅P ₁₁C ₈Si ₁The step of block amorphous alloy has:

Step 1: batching

According to Fe ₇₅Al ₅P ₁₁C ₈Si ₁Nominal composition take by weighing the iron block of FeP, the 9.490g of 5.000g, the aluminium block of 0.432g, the carbon-point of 0.307g and the silico briquette of 0.090g, form preparation Fe ₇₅Al ₅P ₁₁C ₈Si ₁The raw material of block amorphous alloy;

The mass percent purity of iron block is more than or equal to 99.8%;

The mass percent purity of aluminium block is more than or equal to 99.9%;

The mass percent purity of carbon-point is more than or equal to 99.99%;

The mass percent purity of silico briquette is more than or equal to 99.99%;

Step 2: master alloy melting

The raw material of step 1 weighing gained is put into vacuum induction melting furnace carry out melting, master alloy ingot is taken out in melting evenly back;

Melting condition: vacuum tightness is 5 * 10 in the stove of vacuum induction melting furnace when the melting raw material ^-3Pa, 1400 ℃ of smelting temperatures, smelting time 15min;

Step 3: preparation Fe-based amorphous alloy block materials

The mother alloy that step 2 is prepared is put into the induction furnace of quick solidification apparatus, regulates induced current to 400mA, treats after mother alloy melts fully melt jet to be gone in the copper mold, obtains Fe with the copper mold cooling ₇₅Al ₅P ₁₁C ₈Si ₁Block amorphous alloy.

The Fe that embodiment 2 is made ₇₅Al ₅P ₁₁C ₈Si ₁Block amorphous alloy is through X-ray diffraction (XRD), differential scanning heat instrument (DSC) and optics Electronic Speculum (OM) comparative analysis, draws critical diameter and be the non-crystaline amorphous metal rod of 1.5mm and the thickness amorphous band greater than 0.05mm; The DSC experiment finds that it has tangible Curie temperature 567K, glass transformation temperature 707K, crystallization temperature 42K.This Fe ₇₅Al ₅P ₁₁C ₈Si ₁Block amorphous alloy also possesses good soft magnetic performance, and its saturation induction density is 1.36T, the coercive force 2.1A/m after the thermal treatment.

Adopt the preparation method identical with embodiment 2 to make the Fe-Al-P-C-Si block amorphous alloy of heterogeneity, its performance is as shown in the table:

Composition	Curie temperature	Glass transformation temperature	Crystallization temperature	Critical diameter	Saturation induction density	Coercive force
							Fe 79Al 1P 11C 8Si 1	573	701	730	1.5	1.37	3.6
Fe 77Al 3P 11C 8Si 1	570	708	742	2.0	1.32	3.2
							Fe 77Al 3P 10C 8Si 2	575	711	741	1.5	1.28	3.5
Fe 77Al 3P 10C 6Si 4	577	720	742	1.0	1.27	4.2

Embodiment 3:System Fe ₇₇Al ₃P ₉B ₂C ₇Si ₂Block amorphous alloy

The Fe of preparation 18.854g with soft magnetism ₇₇Al ₃P ₉B ₂C ₇Si ₂The step of block amorphous alloy has:

Step 1: batching

According to Fe ₇₇Al ₃P ₉B ₂C ₇Si ₂Nominal composition take by weighing iron block, the aluminium block of 0.317g, the carbon-point of 0.329g and the silico briquette of 0.220g of FeB, 12.507g of FeP, the 0.481g of 5.000g, form preparation Fe ₇₇Al ₃P ₉B ₂C ₇Si ₂The raw material of iron-base block amorphous alloy;

The mass percent purity of iron block is more than or equal to 99.8%;

The mass percent purity of aluminium block is more than or equal to 99.9%;

The mass percent purity of carbon-point is more than or equal to 99.99%;

The mass percent purity of silico briquette is more than or equal to 99.99%;

Step 2: master alloy melting

The raw material of step 1 weighing gained is put into vacuum induction melting furnace carry out melting, master alloy ingot is taken out in melting evenly back;

Melting condition: vacuum tightness is 3 * 10 in the stove of vacuum induction melting furnace when the melting raw material ^-1Pa, 1250 ℃ of smelting temperatures, smelting time 10min;

Step 3: preparation Fe-based amorphous alloy block materials

The mother alloy that step 2 is prepared is put into the induction furnace of quick solidification apparatus, regulates induced current to 380mA, treats after mother alloy melts fully melt jet to be gone in the copper mold, obtains Fe with the copper mold cooling ₇₇Al ₃P ₉B ₂C ₇Si ₂Block amorphous alloy.

The Fe that embodiment 3 is made ₇₇Al ₃P ₉B ₂C ₇Si ₂Block amorphous alloy is through X-ray diffraction (XRD), differential scanning heat instrument (DSC) and optics Electronic Speculum (OM) comparative analysis, draws critical diameter and be the non-crystaline amorphous metal rod of 3.8mm and the thickness amorphous band greater than 0.05mm; The DSC experiment finds that it has tangible Curie temperature 592K, glass transformation temperature 718K, crystallization temperature 753K.This Fe ₇₇Al ₃P ₉B ₂C ₇Si ₂Block amorphous alloy also possesses good soft magnetic performance, and its saturation induction density is 1.30T, the coercive force 3.0A/m after the thermal treatment.

Adopt the preparation method identical with embodiment 3 to make the Fe-Al-P-C-Si block amorphous alloy of heterogeneity, its performance is as shown in the table:

Composition	Curie temperature	Glass transformation temperature	Crystallization temperature	Critical diameter	Saturation induction density	Coercive force
							Fe 79Al 1P 9B 2C 8Si 1	590	711	742	2.5	1.40	2.9
Fe 78Al 2P 9B 2C 8Si 1	591	716	742	3.0	1.37	2.7
							Fe 77Al 3P 9B 2C 8Si 1	590	717	753	3.5	1.36	2.3
Fe 76Al 4P 9B 2C 8Si 1	588	719	752	3.0	1.30	2.8
							Fe 75Al 5P 9B 2C 8Si 1	590	722	754	2.0	1.31	2.9
Fe 77Al 3P 9B 2C 7Si 2	592	718	753	3.8	1.30	3.0
							Fe 77Al 3P 9B 2C 6Si 3	597	730	761	3.5	1.33	3.4
Fe 77Al 3P 9B 2C 5Si 4	598	738	764	2.5	1.29	3.1
							Fe 77Al 3P 7B 6C 5Si 2	615	738	765	1.5	1.44	3.8
Fe 77Al 3P 11B 4C 4Si 1	588	736	762	1.5	1.37	4.7

Fe-Al-P-C-M block amorphous alloy to the present invention makes adopts differential scanning heat instrument (DSC) experimental analysis, obtains curie transition temperature, glass transformation temperature and crystallization temperature; By the difference between crystallization temperature and the glass transformation temperature, can be used for estimating the amorphous formation ability of different-alloy composition in this alloy system.

To the Fe-Al-P-C-M block amorphous alloy that the present invention makes, carry out XRD, DSC and OM experimental analysis, whether be complete amorphous with the various size test rod of judging each embodiment, thereby the amorphous of determining embodiment form critical diameter.

Claims (7)

1, a kind of Fe-Al-P-C-M block amorphous alloy with soft magnetism is characterized in that: be to add metalloid element M in the Fe-Al-P-C block amorphous alloy, this metalloid element M is meant the combination of B or Si or B+Si;

Fe-Al-P-C-B block amorphous alloy composition with soft magnetism is the B of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus;

Fe-Al-P-C-Si block amorphous alloy composition with soft magnetism is the Si of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus;

Fe-Al-P-C-B-Si block amorphous alloy composition with soft magnetism is the Si of B, 0.5～6at% of C, 0.5～6at% of P, 4～9at% of Al, 5～11at% of 1～5at% and the Fe of surplus.

2, the Fe-Al-P-C-M block amorphous alloy with soft magnetism according to claim 1 is characterized in that the Fe-Al-P-C-B block amorphous alloy also includes following concrete composition:

Fe ₇₇Al ₃P ₁₀B ₁C ₉Or Fe ₇₇Al ₃P ₉B ₂C ₉Or Fe ₇₇Al ₃P ₈B ₃C ₉

Or Fe ₇₇Al ₃P ₇B ₄C ₉Or Fe ₇₇Al ₃P ₆B ₅C ₉Or Fe ₇₇Al ₃P ₇B ₅C ₈

Or Fe ₇₇Al ₃P ₈B ₅C ₇Or Fe ₇₇Al ₃P ₁₀B ₃C ₇

3, the Fe-Al-P-C-M block amorphous alloy with soft magnetism according to claim 1 is characterized in that the Fe-Al-P-C-Si block amorphous alloy also includes following concrete composition:

Fe ₇₅Al ₅P ₁₁C ₈Si ₁Or Fe ₇₉Al ₁P ₁₁C ₈Si ₁Or Fe ₇₇Al ₃P ₁₁C ₈Si ₁

Or Fe ₇₇Al ₃P ₁₀C ₈Si ₂Or Fe ₇₇Al ₃P ₁₀C ₆Si ₄

4, the Fe-Al-P-C-M block amorphous alloy with soft magnetism according to claim 1 is characterized in that the Fe-Al-P-C-B-Si block amorphous alloy also includes following concrete composition:

Fe ₇₇Al ₃P ₉B ₂C ₇Si ₂Or Fe ₇₉Al ₁P ₉B ₂C ₈Si ₁Or Fe ₇₈Al ₂P ₉B ₂C ₈Si ₁

Or Fe ₇₇Al ₃P ₉B ₂C ₈Si ₁Or Fe ₇₆Al ₄P ₉B ₂C ₈Si ₁Or Fe ₇₅Al ₅P ₉B ₂C ₈Si ₁

Or Fe ₇₇Al ₃P ₉B ₂C ₇Si ₂Or Fe ₇₇Al ₃P ₉B ₂C ₆Si ₃Or Fe ₇₇Al ₃P ₉B ₂C ₅Si ₄

Or Fe ₇₇Al ₃P ₇B ₆C ₅Si ₂Or Fe ₇₇Al ₃P ₁₁B ₄C ₄Si ₁

5, the Fe-Al-P-C-M block amorphous alloy with soft magnetism according to claim 1, it is characterized in that: the critical diameter of Fe-Al-P-C-M block amorphous alloy is the non-crystaline amorphous metal bar of 1.0mm～3.8mm, and has between the supercooling liquid phase region of 25k～45k.

6, the Fe-Al-P-C-M block amorphous alloy with soft magnetism according to claim 1, it is characterized in that: the saturation induction density of Fe-Al-P-C-M block amorphous alloy is not less than 1.30T, and has≤coercive force of 5.5A/m.

7, a kind ofly prepare the method with Fe-Al-P-C-M block amorphous alloy of soft magnetism as claimed in claim 1, it is characterized in that the following step is arranged:

Step 1: batching

Nominal composition according to Fe-Al-P-C-M takes by weighing FeP, FeB, iron block, aluminium block, carbon-point and silico briquette, forms the raw material of preparation Fe-Al-P-C-M block amorphous alloy;

The mass percent purity of iron block is more than or equal to 99.8%;

The mass percent purity of aluminium block is more than or equal to 99.9%;

The mass percent purity of carbon-point is more than or equal to 99.99%;

The mass percent purity of silico briquette is more than or equal to 99.99%;

Step 2: master alloy melting

The raw material of step 1 weighing gained is put into vacuum induction melting furnace carry out melting, master alloy ingot is taken out in melting evenly back;

Melting condition: vacuum tightness is 3 * 10 in the stove of vacuum induction melting furnace when the melting raw material ^-1Pa～5 * 10 ^-3Pa, 1100 ℃～1600 ℃ of smelting temperatures, smelting time 5～15min;

Step 3: preparation Fe-based amorphous alloy block materials

The mother alloy that step 2 is prepared is put into the induction furnace of quick solidification apparatus, regulates induced current to 300mA～500mA, treats after mother alloy melts fully melt jet to be gone in the copper mold, obtains the Fe-Al-P-C-M block amorphous alloy with the copper mold cooling.

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