CN105234391A - Method for preparing rare earth permanent magnetic material by adding liquid-phase holmium to waste magnetic steels - Google Patents

Abstract

The invention provides a method for preparing a rare earth permanent magnetic material by adding liquid-phase holmium to waste magnetic steels. The method comprises the following steps: pre-classifying the collected waste magnetic steels according to a classification criterion that rare earth elements contained in the waste magnetic steels of the same batch and the same model are the same, thereby obtaining pretreated magnet materials, and directly performing hydrogen decrepitation on the obtained pretreated magnet materials for pulverizing to obtain a rare earth hydrogen decrepitation magnetic powder; subsequently, performing sampling analysis on the rare earth hydrogen decrepitation magnetic powder and then adding the liquid-phase holmium to the rare earth hydrogen decrepitation magnetic powder according to requirements to obtain a mixed powder; and finally, preparing the desired rare earth permanent magnetic material through static pressing, sintering and annealing; the problem of segregation of an alloy ingot obtained after smelting due to different melting points of various components and manual operation factors is effectively solved; after pre-classification, the time of recovering the waste magnetic steels can be saved, and a process step of extracting the rare earth elements is omitted; furthermore, the liquid-phase holmium is added to the pretreated magnet materials so as to promote the increase of a neodymium-iron-boron magnet and a maximum magnetic energy product and the reduction of a total rare earth amount, and therefore, the cost of raw materials can be effectively reduced.

Description

The method that liquid phase holmium prepares rare earth permanent-magnetic material is added in waste and old magnet steel

Technical field

The present invention relates to rare-earth permanent-magnet material technical field, particularly relate to a kind of method of adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel.

Background technology

In recent years, along with the continuous expansion of rare earth permanent-magnetic material application, increasing to raw-material demand, but because the cost of rare earth mining is higher and along with the increasing of national regulation and control dynamics, its material cost also strengthens gradually.And when present price amount of increase is excessive, the price endurance of down-stream enterprise is more limited, the materials such as the ferrite that therefore portion downstream enterprise choice for use is more cheap or aluminium nickel cobalt, SmCo replace the rare earth in neodymium iron boron magnetic body raw material, and this brings larger unstability to neodymium iron boron magnetic body market.Simultaneously because Nd-Fe-B magnetic material fragility is high, specification is mixed, the problem such as very easily occur unfilled corner and size is bad in electroplating process; And then the learies causing electroplating rear neodymium iron boron magnetic body is very large, be only the scrappage of finished appearance and size just between 2 ~ 5%, and also often cause that generation is bad scraps phenomenon due to other aspect particular/special requirements of client.

Process at present for the recycle and reuse of waste and old magnet steel is: lumped together by all waste and old magnet steel collected, presort, and unification is back to returnable, in returnable, various rare earth elements contained in waste and old magnet steel are extracted one by one, then again process according to the rare earth permanent-magnetic material of required preparation.Although this process recycles waste and old magnet steel, but its abstraction process is complicated, and need for the various technological parameters of different rare earth element fusing point adjustment returnable, with the extraction process requirement of satisfied different rare earth element, this has put forward higher requirement to the equipment of returnable.Again carry out adding man-hour simultaneously, recovery is obtained single rare-earth oxide, after proportioning smelts Deng Ge road technique, the permanent-magnet material requiring preparation is obtained in rear road, and the permanent magnet adopting this technique to obtain has many defects, production process is difficult to control, human factor is more, and then the quality of impact batch production.In addition, the actual coercivity of permanent-magnet material that existing production technology is produced is low, service temperature stability is lower, and corrosion resistance is weak, becomes the principal element limiting its development and application.

And by rare earth permanent-magnetic material prepared by rare earth element, there is the characteristics such as high catalytic activity, high magnetic, superconductivity, photoelectric conversion, optomagnetic memory, high weight of hydrogen, corrosion-proof wear; Therefore, under the prerequisite not changing rare earth permanent-magnetic material characteristic, how to improve the bending strength of rare earth permanent-magnetic material, hardness and toughness, avoid alloy pig material during follow-up melting to produce segregation, and reduction has become those skilled in the art's major issue urgently to be resolved hurrily to the technical requirement of production equipment simultaneously.

Summary of the invention

Technical problem solved by the invention is to provide a kind of method of adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel, to solve the shortcoming in above-mentioned background technology.

Technical problem solved by the invention realizes by the following technical solutions:

In waste and old magnet steel, add the method that liquid phase holmium prepares rare earth permanent-magnetic material, its concrete steps are as follows:

1) presorted according to rare earth element contained in magnet steel by the waste and old magnet steel collected, the standard of presorting is classified as a class for the waste and old magnet steel identical with rare earth element contained by batch same model, obtains pretreatment magnet material;

2) according to preparation rare earth permanent-magnetic material, to step 1) in obtain pretreatment magnet material directly carry out the broken powder process of hydrogen, obtain the broken magnetic of rare earth hydrogen;

3) to step 2) in obtain the broken magnetic of rare earth hydrogen carry out sample analysis, obtain rare-earth magnetic component parameter;

4) according to step 3) in analyze the rare-earth magnetic component parameter that obtains, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, the percent mass proportioning of mixed powder: the broken magnetic of 95 ~ 97% rare earth hydrogen, 3 ~ 5% liquid phase holmiums;

5) by step 4) in mixed powder, the airflow milling broken by hydrogen that obtain be broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind;

6) by step 5) in the fine powder that obtains add isostatic pressing method by mold pressing and be pressed into pressed compact;

7) by step 6) in the pressed compact that obtains be placed in vacuum sintering furnace and sinter and be incubated;

8) by step 7) in sintering after pressed compact in vacuum sintering furnace, be cooled to 300 DEG C ~ 360 DEG C, be warming up to first paragraph heat treatment again and be incubated, then continue to be cooled to 300 DEG C ~ 360 DEG C, finally be warming up to second segment heat treatment and be incubated, and respectively tempering is carried out to two sections of heat treatments, to obtain rare earth permanent-magnetic material base substrate;

9) by step 8) the middle rare earth permanent-magnetic material base substrate obtained, carry out machining cutting according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously.

In the present invention, described step 5) in, fine powder particle mean size is 2.4 ~ 3.2 μm.

In the present invention, described step 6) in, the pressure of isostatic pressed is 230 ~ 280MPa.

In the present invention, described step 7) in, sintering temperature is 1070 DEG C ~ 1095 DEG C.

In the present invention, described step 7) in, temperature retention time is 200 minutes.

In the present invention, described step 8) in, first paragraph heat treatment temperature is 900 DEG C ~ 920 DEG C, and temperature retention time is 90 minutes; Second segment heat treatment temperature is 530 DEG C ~ 620 DEG C, and temperature retention time is 200 minutes.

In the present invention, by the waste and old magnet steel collected is presorted according to rare earth element contained in magnet steel, the content of various rare earth element in the waste and old magnet steel being about to process can be obtained, and then effectively adjust for different rare earth element fusing point, not only save the time of reclaiming waste and old magnet steel, and reduce the processing step extracting different rare earth element in waste and old magnet steel and the requirement reduced returnable equipment, also provide convenient for producing with the rare earth permanent-magnetic material later process of the equal model of waste and old magnet steel simultaneously; Adding of holmium is conducive to reducing the outfield needed for alloy saturated magnetization, increases neodymium iron boron principal phase Nd for the rich neodymium phase reduced in aluminium alloy simultaneously ₂fe ₁₄the ratio of B, thus realize neodymium iron boron magnetic body and maximum magnetic energy product are improved and total amount of rare earth consumption reduction, effectively reduce cost of material.

A kind of rare earth permanent-magnetic material, comprises neodymium, praseodymium, holmium, boron, copper, aluminium, yttrium and iron; Each constituent mass percentage is: 10 ~ 20% neodymiums, 8 ~ 15% praseodymiums, 5 ~ 20% holmiums, 0.5 ~ 1.2% boron, 0 ~ 0.25% bronze medal, 0 ~ 0.8% aluminium, 0.2 ~ 3% yttrium, 39 ~ 76% iron, and iron is iron and inevitable impurity.

Beneficial effect: the present invention is by by presorting the waste and old magnet steel collected according to rare earth element contained in magnet steel, the content of various rare earth element in the waste and old magnet steel being about to process can be obtained, and then effectively adjust for different rare earth element fusing point, not only save the time of reclaiming waste and old magnet steel, and reduce the processing step extracting different rare earth element in waste and old magnet steel and the requirement reduced returnable equipment, also provide convenient for producing with the alloy permanent-magnet material later process of the equal model of waste and old magnet steel simultaneously; And by analyzing the rare-earth magnetic component parameter obtained, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, the production cost of effective reduction enterprise, and the fusing point solving each component in traditional fusion process is different and manual operation factor and the problem of alloy pig generation segregation to cause after melting, adding of holmium is conducive to impelling neodymium iron boron magnetic body and maximum magnetic energy product to improve and total amount of rare earth consumption reduction, effectively reduces cost of material; Be conducive to the adding of yttrium the actual coercivity improving alloy pig, reduce neodymium, praseodymium consumption simultaneously.

Detailed description of the invention

Describe the present invention below by following specific embodiment.

Embodiment 1

A kind of rare earth permanent-magnetic material, prepare burden by such as following table 1-1:

Table 1-1 embodiment 1 formula table

Component	Neodymium	Praseodymium	Holmium	Yttrium	Boron	Copper	Aluminium	Iron	Add up to
										Weight/kg	4.2	3.2	1.1	0.04	0.17	0.02	0.04	11.8	20.57
Mass percent/%	20	15	8	0.2	0.5	0.1	0.2	56	100

The preparation method of the above-mentioned rare earth permanent-magnetic material of the present embodiment is as follows:

The criteria for classification that the waste and old magnet steel collected is classified as a class according to the waste and old magnet steel identical with rare earth element contained by batch same model is presorted, obtains pretreatment magnet material, then according to the rare earth permanent-magnetic material of preparation, the broken powder process of hydrogen is directly carried out to the pretreatment magnet material obtained, obtains the broken magnetic of rare earth hydrogen, sample analysis is carried out to the broken magnetic of rare earth hydrogen obtained simultaneously, obtain rare-earth magnetic component parameter, again according to analyzing the rare-earth magnetic component parameter obtained, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, finally by broken by hydrogen for the mixed powder obtained, airflow milling is broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind, the particle mean size of fine powder is 2.4 μm, successively fine powder is added isostatic pressing method by mold pressing and be pressed into pressed compact, and the pressure of isostatic pressed is 230MPa, green density is 4.3g/cm ³, after treating that fine powder is all suppressed, pressed compact is placed in vacuum sintering furnace and sinters, sintering temperature is 1070 DEG C, and carries out insulation 200 minutes, then the pressed compact after sintering is cooled to 300 DEG C in vacuum sintering furnace, be warming up to 900 DEG C again and carry out insulation 90 minutes, again be cooled to 300 DEG C, be warming up to 530 DEG C and carrying out insulation 200 minutes, namely rare earth permanent-magnetic material base substrate is obtained, finally carry out machining cutting to permanent-magnet material base substrate according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously, its performance test data is see table 1-2.

Wherein, Br is remanent magnetism, and Hcb is coercivity, and (B.H) max is magnetic energy product, and MPa is bending strength.

Table 1-2 embodiment 1 properties of product test chart

Project	Br/kGs	Hcb/KOe	MPa	(B.H)max/MGOe
					Test value	14.6	10.5	460	48

Embodiment 2

A kind of rare earth permanent-magnetic material, prepare burden by such as following table 2-1:

Table 2-1 embodiment 2 formula table

Component	Neodymium	Praseodymium	Holmium	Yttrium	Boron	Copper	Aluminium	Iron	Add up to
										Weight/kg	3.8	2.5	1.68	0.15	0.2	0.02	0.04	12.2	20.59
Mass percent/%	18	12	10	0.7	1	0.1	0.2	58	100

The preparation method of the above-mentioned rare earth permanent-magnetic material of the present embodiment is as follows:

The criteria for classification that the waste and old magnet steel collected is classified as a class according to the waste and old magnet steel identical with rare earth element contained by batch same model is presorted, obtains pretreatment magnet material; Then according to the rare earth permanent-magnetic material of preparation, the broken powder process of hydrogen is directly carried out to the pretreatment magnet material obtained, obtains the broken magnetic of rare earth hydrogen; Sample analysis is carried out to the broken magnetic of rare earth hydrogen obtained simultaneously, obtain rare-earth magnetic component parameter, again according to analyzing the rare-earth magnetic component parameter obtained, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, finally broken by hydrogen for the mixed powder of acquisition, airflow milling are broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind, the particle mean size of fine powder is 2.5 μm; Successively fine powder is added isostatic pressing method by mold pressing and be pressed into pressed compact, and the pressure of isostatic pressed is 240MPa, green density is 4.4g/cm ³; After treating that fine powder is all suppressed, pressed compact is placed in vacuum sintering furnace and sinters, sintering temperature is 1080 DEG C, and carries out insulation 200 minutes; Then the pressed compact after sintering is cooled to 310 DEG C in vacuum sintering furnace, be warming up to 900 DEG C again and carry out insulation 90 minutes, again be cooled to 310 DEG C, be warming up to 550 DEG C and carrying out insulation 200 minutes, namely rare earth permanent-magnetic material base substrate is obtained, finally carry out machining cutting to rare earth permanent-magnetic material base substrate according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously; Its performance test data is see table 2-2.

Table 2-2 embodiment 2 properties of product test chart

Project	Br/kGs	Hcb/KOe	MPa	(B.H)max/MGOe
					Test value	14.3	10.7	490	52

Embodiment 3

A kind of rare earth permanent-magnetic material, prepare burden by such as following table 3-1:

Table 3-1 embodiment 3 formula table

Component	Neodymium	Praseodymium	Holmium	Yttrium	Boron	Copper	Aluminium	Iron	Add up to
										Weight/kg	2.7	2.1	2.52	0.25	0.5	0.04	0.1	13.0	21.21
Mass percent/%	13	10	12	1.2	1.1	0.2	0.5	62	100

The preparation method of the above-mentioned rare earth permanent-magnetic material of the present embodiment is as follows:

The criteria for classification that the waste and old magnet steel collected is classified as a class according to the waste and old magnet steel identical with rare earth element contained by batch same model is presorted, obtains pretreatment magnet material; Then according to the rare earth permanent-magnetic material of preparation, the broken powder process of hydrogen is directly carried out to the pretreatment magnet material obtained, obtains the broken magnetic of rare earth hydrogen; Sample analysis is carried out to the broken magnetic of rare earth hydrogen obtained simultaneously, obtain rare-earth magnetic component parameter, again according to analyzing the rare-earth magnetic component parameter obtained, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, finally broken by hydrogen for the mixed powder of acquisition, airflow milling are broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind, the particle mean size of fine powder is 2.6 μm; Successively fine powder is added isostatic pressing method by mold pressing and be pressed into pressed compact, and the pressure of isostatic pressed is 250MPa, green density is 4.4g/cm ³; After treating that fine powder is all suppressed, pressed compact is placed in vacuum sintering furnace and sinters, sintering temperature is 1085 DEG C, and carries out insulation 200 minutes; Then the pressed compact after sintering is cooled to 320 DEG C in vacuum sintering furnace, be warming up to 910 DEG C again and carry out insulation 90 minutes, again be cooled to 320 DEG C, be warming up to 570 DEG C and carrying out insulation 200 minutes, namely rare earth permanent-magnetic material base substrate is obtained, finally carry out machining cutting to rare earth permanent-magnetic material base substrate according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously; Its performance test data is see table 3-2.

Table 3-2 embodiment 3 properties of product test chart

Project	Br/kGs	Hcb/KOe	MPa	(B.H)max/MGOe
					Test value	14.5	11.2	530	54

Embodiment 4

A kind of rare earth permanent-magnetic material, prepare burden by such as following table 4-1:

Table 4-1 embodiment 4 formula table

Component	Neodymium	Praseodymium	Holmium	Yttrium	Boron	Copper	Aluminium	Iron	Add up to
										Weight/kg	2.1	1.7	3.1	2.94	0.6	0.04	0.2	13.4	24.08
Mass percent/%	10	8	15	1.4	1.2	0.2	0.6	63.6	100

The preparation method of the above-mentioned rare earth permanent-magnetic material of the present embodiment is as follows:

The criteria for classification that the waste and old magnet steel collected is classified as a class according to the waste and old magnet steel identical with rare earth element contained by batch same model is presorted, obtains pretreatment magnet material; Then according to the rare earth permanent-magnetic material of preparation, the broken powder process of hydrogen is directly carried out to the pretreatment magnet material obtained, obtains the broken magnetic of rare earth hydrogen; Sample analysis is carried out to the broken magnetic of rare earth hydrogen obtained simultaneously, obtain rare-earth magnetic component parameter, again according to analyzing the rare-earth magnetic component parameter obtained, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, finally broken by hydrogen for the mixed powder of acquisition, airflow milling are broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind, the particle mean size of fine powder is 2.8 μm; Successively fine powder is added isostatic pressing method by mold pressing and be pressed into pressed compact, and the pressure of isostatic pressed is 240MPa, green density is 4.5g/cm ³; After treating that fine powder is all suppressed, pressed compact is placed in vacuum sintering furnace and sinters, sintering temperature is 1090 DEG C, and carries out insulation 200 minutes; Then the pressed compact after sintering is cooled to 330 DEG C in vacuum sintering furnace, be warming up to 915 DEG C again and carry out insulation 90 minutes, again be cooled to 330 DEG C, be warming up to 590 DEG C and carrying out insulation 200 minutes, namely rare earth permanent-magnetic material base substrate is obtained, finally carry out machining cutting to rare earth permanent-magnetic material base substrate according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously; Its performance test data is see table 4-2.

Table 4-2 embodiment 4 properties of product test chart

Project	Br/kGs	Hcb/KOe	MPa	(B.H)max/MGOe
					Test value	14.6	11.3	515	49

Embodiment 5

A kind of rare earth permanent-magnetic material, prepare burden by such as following table 5-1:

Table 5-1 embodiment 5 formula table

Component	Neodymium	Praseodymium	Holmium	Yttrium	Boron	Copper	Aluminium	Iron	Add up to
										Weight/kg	2.1	1.7	3.8	0.59	0.6	0.04	0.2	12.4	21.43
Mass percent/%	10	8	18	2.8	1.2	0.2	0.8	59	100

The preparation method of the above-mentioned rare earth permanent-magnetic material of the present embodiment is as follows:

The criteria for classification that the waste and old magnet steel collected is classified as a class according to the waste and old magnet steel identical with rare earth element contained by batch same model is presorted, obtains pretreatment magnet material, then according to the rare earth permanent-magnetic material of preparation, the broken powder process of hydrogen is directly carried out to the pretreatment magnet material obtained, obtains the broken magnetic of rare earth hydrogen, sample analysis is carried out to the broken magnetic of rare earth hydrogen obtained simultaneously, obtain rare-earth magnetic component parameter, again according to analyzing the rare-earth magnetic component parameter obtained, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, finally by broken by hydrogen for the mixed powder obtained, airflow milling is broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind, the particle mean size of fine powder is 3.0 μm, simultaneously can per sample in rare earth component comparison value, appropriate rare earth component is added to satisfy the demands for the rare earth permanent-magnetic material rare earth component of required preparation and proportion requirement, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind, successively fine powder is added isostatic pressing method by mold pressing and be pressed into pressed compact, and the pressure of isostatic pressed is 270MPa, green density is 4.5g/cm ³, after treating that fine powder is all suppressed, pressed compact is placed in vacuum sintering furnace and sinters, sintering temperature is 1095 DEG C, and carries out insulation 200 minutes, then the pressed compact after sintering is cooled to 350 DEG C in vacuum sintering furnace, be warming up to 920 DEG C again and carry out insulation 90 minutes, again be cooled to 350 DEG C, be warming up to 600 DEG C and carrying out insulation 200 minutes, namely rare earth permanent-magnetic material base substrate is obtained, finally carry out machining cutting to rare earth permanent-magnetic material base substrate according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously, its performance test data is see table 5-2.

Table 5-2 embodiment 5 properties of product test chart

Project	Br/kGs	Hcb/KOe	MPa	(B.H)max/MGOe
					Test value	14.3	10.8	503	46

More than show and describe general principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims (7)

1. in waste and old magnet steel, add the method that liquid phase holmium prepares rare earth permanent-magnetic material, it is characterized in that, concrete steps are as follows:

1) presorted according to rare earth element contained in magnet steel by the waste and old magnet steel collected, the standard of presorting is classified as a class for the waste and old magnet steel identical with rare earth element contained by batch same model, obtains pretreatment magnet material;

2) according to preparation rare earth permanent-magnetic material, to step 1) in obtain pretreatment magnet material directly carry out the broken powder process of hydrogen, obtain the broken magnetic of rare earth hydrogen;

3) to step 2) in obtain the broken magnetic of rare earth hydrogen carry out sample analysis, obtain rare-earth magnetic component parameter;

4) according to step 3) in analyze the rare-earth magnetic component parameter that obtains, in the broken magnetic of rare earth hydrogen obtained, add liquid phase holmium obtain mixed powder, the percent mass proportioning of mixed powder: the broken magnetic of 95 ~ 97% rare earth hydrogen, 3 ~ 5% liquid phase holmiums;

5) by step 4) in mixed powder, the airflow milling broken by hydrogen that obtain be broken into fine powder, and put into quantitative air when carrying out airflow milling and carry out passivation, and mix and blend is carried out to the powder that front and back grind;

6) by step 5) in the fine powder that obtains add isostatic pressing method by mold pressing and be pressed into pressed compact;

7) by step 6) in the pressed compact that obtains be placed in vacuum sintering furnace and sinter and be incubated;

8) by step 7) in sintering after pressed compact in vacuum sintering furnace, be cooled to 300 DEG C ~ 360 DEG C, be warming up to first paragraph heat treatment again and be incubated, then continue to be cooled to 300 DEG C ~ 360 DEG C, finally be warming up to second segment heat treatment and be incubated, and respectively tempering is carried out to two sections of heat treatments, to obtain rare earth permanent-magnetic material base substrate;

9) by step 8) the middle rare earth permanent-magnetic material base substrate obtained, carry out machining cutting according to the actual requirements and refine, reserved size of carrying out electroplating, obtains rare earth permanent-magnetic material simultaneously.

2. the method for adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel according to claim 1, is characterized in that, described step 5) in, fine powder particle mean size is 2.4 ~ 3.2 μm.

3. the method for adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel according to claim 1, is characterized in that, described step 6) in, the pressure of isostatic pressed is 230 ~ 280MPa.

4. the method for adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel according to claim 1, is characterized in that, described step 7) in, sintering temperature is 1070 DEG C ~ 1095 DEG C.

5. the method for adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel according to claim 1, is characterized in that, described step 7) in, temperature retention time is 200 minutes.

6. the method for adding liquid phase holmium and preparing rare earth permanent-magnetic material in waste and old magnet steel according to claim 1, is characterized in that, described step 8) in, first paragraph heat treatment temperature is 900 DEG C ~ 920 DEG C, and temperature retention time is 90 minutes; Second segment heat treatment temperature is 530 DEG C ~ 620 DEG C, and temperature retention time is 200 minutes.

7. according to any one of claim 1 ~ 6, add the method that liquid phase holmium prepares rare earth permanent-magnetic material in waste and old magnet steel, the rare earth permanent-magnetic material of preparation, is characterized in that, comprises neodymium, praseodymium, holmium, boron, copper, aluminium, yttrium and iron; Each constituent mass percentage is: 10 ~ 20% neodymiums, 8 ~ 15% praseodymiums, 5 ~ 20% holmiums, 0.5 ~ 1.2% boron, 0 ~ 0.25% bronze medal, 0 ~ 0.8% aluminium, 0.2 ~ 3% yttrium, 39 ~ 76% iron, and iron is iron and inevitable impurity.