CN106702111A - Heat treatment method of iron-based amorphous material - Google Patents

Abstract

The invention relates to a heat treatment method of an iron-based amorphous material, and belongs to the technical field of selection of magnetic materials. The heat treatment method comprises the following steps: placing the iron-based amorphous material into a vacuum chamber, pumping argon into the vacuum chamber, and conducting heat treatment on the vacuum chamber; uniformly heating for 80 minutes from normal temperature to 290 to 310 DEG C, and keeping the temperature constant for 30 minutes; continuing heating a heating furnace for 70 minutes to 410 to 430 DEG C, and keeping the temperature constant for 50 minutes; continuing heating the heating furnace for 90 minutes to 540 to 560 DEG C, and keeping the temperature constant for 60 minutes; stopping heating, and ensuring that the temperature of the iron-based amorphous material falls to 470 to 490 DEG C in the vacuum chamber of the heating furnace; and taking the machined iron-based amorphous material from the vacuum chamber of the heating furnace, and cooling the machined iron-based amorphous material naturally to room temperature. Tests show that when the iron-based amorphous material subjected to heat treatment according to the heat treatment method is used in an inductance coil, loss of the iron-based amorphous material can be reduced effectively, the energy consumption is reduced, and the magnetic flux is improved.

Description

The heat treatment method of Fe-based amorphous material

Technical field

The invention belongs to the technical field of the selection of magnetic material.

Background technology

Fe-based amorphous material is to develop a kind of new function material faster in recent years, has wide answering in power domain With prospect, the inductance coil prepared by it, distribution transformer have better conformed to offshore oil and gas field energy-conserving and environment-protective, corrosion resistance will Ask.Amorphous alloy transformer is selected in electrical design in transfering natural gas from the west to the east as far as possible, exactly in order to ensure quality of voltage and adaptation The need for long distance power transmission.

The general material that current inductance coil is used, such as crystalline state silicon steel, either in the standby or course of work, with The change for electric current can generate heat, and the energy of thermal losses is very more, and Fe-based amorphous material is a kind of magnetic material of function admirable, phase Than under, with substantially low loss, the inductance coil made using common Fe-based amorphous material saves about 75% energy Amount, but it is possible to the consumption of amount is still still very big；The excellent soft magnet performance of Fe-based amorphous material and mechanical property come from its preparation During formed special construction, therefore, how it is maximized utilization and research and develop Fe-based amorphous material, be at present be badly in need of solve Problem.

The content of the invention

It is non-using iron-based in the prior art to solve the invention is intended to provide a kind of heat treatment method of Fe-based amorphous material Still there is larger energy consumption in brilliant material.

Base case：The heat treatment method of Fe-based amorphous material, using following heat treatment step：

Step one：Fe-based amorphous material is put into vacuum chamber, to argon gas is filled with vacuum chamber, vacuum chamber is heated Treatment；

Step 2：After uniformly being heated from normal temperature 80 minutes and being heated to 290-310 DEG C, constant temperature is kept 30 minutes；

Step 3：After completing step 2, continue to heating stove heat 70 minutes to 410-430 DEG C, and keep 50 points of constant temperature Clock；

Step 4：After completing step 3, continue to heating stove heat 90 minutes to 540-560 DEG C, and keep 60 points of constant temperature Clock；

Step 5：Stop heating, Fe-based amorphous material temperature in the vacuum chamber of heating furnace is down to 470-490 DEG C；

Step 6：The Fe-based amorphous material after being processed through step 5 is taken out from the vacuum chamber of heating furnace, is naturally cooled to Normal temperature.

The know-why of this programme and have the beneficial effect that：The present invention is entered by testing heat treatment method to Fe-based amorphous material Row heats, and reduces the loss of Fe-based amorphous material, is heated under ar gas environment in addition, and argon gas property is steady It is fixed, prevent Fe-based amorphous material from chemically reacting, the effect reached during heat treatment can be made more preferable.The present invention uses heat treatment side Fe-based amorphous material after method treatment, puts into inductance coil in the middle of, and Fe-based amorphous material can be effectively reduced by test The loss of material, reduces the consumption of energy, improves magnetic flux, the excellent soft magnet performance of Fe-based amorphous material and the mechanical property energy The special construction formed in its preparation process, and excellent soft magnet performance only can just show by after suitable heat treatment Come.

Preferred scheme one, used as the further optimization to base case, step 2 is uniformly heated 80 minutes and added from normal temperature After hot to 300 DEG C, constant temperature is kept 30 minutes；It is heated to 300 DEG C of one side to be convenient for people to be controlled and realize, another aspect iron Base non-crystalline material is capable of the soft magnetism of excitation material during uniform heating.

Preferred scheme two, as the further optimization to base case, continues to heating stove heat 70 minutes in step 3 To 420 DEG C, and keep constant temperature 50 minutes；Control is at 420 DEG C, it is ensured that the thermal treatment quality of Fe-based amorphous material, prevents from heating up Too fast, the treatment of insulation high so that the microscopic structure in Fe-based amorphous material can change completely.

Preferred scheme three, as the further optimization to base case, continues to heating stove heat 90 minutes in step 4 To 550 DEG C, and keep constant temperature 60 minutes；550 DEG C is the process of high tempering, is convenient for people to the control into trip temperature, is obtained with this Obtain intensity, hardness and plasticity, all preferable Fe-based amorphous material of combination property of toughness.

Preferred scheme four, used as the further optimization to base case, Fe-based amorphous material is in heating furnace in step 5 Temperature is down to 480 DEG C in vacuum chamber；Control cooling velocity, keeps certain hour, it is slowly cooled down in the vacuum chamber.

Preferred scheme five, used as the further optimization to base case, step one in vacuum chamber to being filled with nitrogen；Nitrogen phase It is cheap for argon gas, easily obtain.

Specific embodiment

Below by specific embodiment, the present invention is further detailed explanation：Described in detail by taking embodiment 1 as an example The step of preparation.Wherein the proportioning of embodiment 1 and other embodiment embodies in table 1, except the proportioning in table 1 or the area of index Not, the preparation process of other embodiment is same as Example 1.

Embodiment 1：The heat treatment method of the Fe-based amorphous material of the present invention, prepares Fe-based amorphous according to following hot-working method Material：

Step one：Fe-based amorphous material is put into vacuum chamber, to argon gas is filled with vacuum chamber, vacuum chamber is heated Treatment；

Step 2：After uniformly being heated from normal temperature 80 minutes and being heated to 300 DEG C, constant temperature is kept 30 minutes；

Step 3：After completing step 2, continue to heating stove heat 70 minutes to 420 DEG C, and keep constant temperature 50 minutes；

Step 4：After completing step 3, continue to heating stove heat 90 minutes to 550 DEG C, and keep constant temperature 60 minutes；

Step 5：Stop heating, Fe-based amorphous material temperature in the vacuum chamber of heating furnace is down to 480 DEG C；

Step 6：The Fe-based amorphous material after being processed through step 5 is taken out from the vacuum chamber of heating furnace, is naturally cooled to Normal temperature.

Embodiment 2：Be with the difference of embodiment 1 part, two the step of embodiment 1 in, uniformly heat 80 from normal temperature Minute and after being heated to 290 DEG C, keep constant temperature 30 minutes.

Embodiment 3：Be with the difference of embodiment 1 part, two the step of embodiment 1 in, uniformly heat 80 from normal temperature Minute and after being heated to 310 DEG C, keep constant temperature 30 minutes.

Embodiment 4：Be with the difference of embodiment 1 part, three the step of embodiment 1 in, continue to heating stove heat 70 minutes to 410 DEG C, and keep constant temperature 50 minutes.

Embodiment 5：Be with the difference of embodiment 1 part, three the step of embodiment 1 in, continue to heating stove heat 70 minutes to 430 DEG C, and keep constant temperature 50 minutes.

Embodiment 6：Be with the difference of embodiment 1 part, four the step of embodiment 1 in, continue to heating stove heat 90 minutes to 540 DEG C, and keep constant temperature 60 minutes.

Embodiment 7：Be with the difference of embodiment 1 part, four the step of embodiment 1 in, continue to heating stove heat 90 minutes to 560 DEG C, and keep constant temperature 60 minutes.

Embodiment 8：Be with the difference of embodiment 1 part, five the step of embodiment 1 in, Fe-based amorphous material plus Temperature is down to 470 DEG C in the vacuum chamber of hot stove.

Embodiment 9：Be with the difference of embodiment 1 part, five the step of embodiment 1 in, Fe-based amorphous material plus Temperature is down to 490 DEG C in the vacuum chamber of hot stove.

Before being heat-treated, its internal structure is in unordered state to Fe-based amorphous material, now non-crystalline material It is stable, it is impossible to inspire the soft magnet performance of material, the loss of material is larger；And Fe-based amorphous material is by this programme Heat treatment process in, after a certain temperature is reached, crystallinity increases with the rising of temperature, non-crystalline material internal structure More in order, crystallinity increase, the quantity of electric charge increase that unit area passes through, electric current increase, therefore, by after this programme heat treatment Fe-based amorphous material with the rising of temperature, Fe-based amorphous material crystalline degree increase, electric current increase, energy loss reduces.Iron The main component of base non-crystalline material is iron, silicon, boron, and its inductance is the superposition of multiple materials, therefore, the inductance of Fe-based amorphous material Increase compared with the inductance of silicon steel sheet in the prior art.

Comparative example 1：It is with place of the difference of embodiment 1, the same size inductance coil made using current material, In the case of frequency, voltage constant, inductance and curent change are tested.

Comparative example 2：Difference part with embodiment 1 is to be filled with nitrogen in the vacuum chamber.

The inductance coil that Fe-based amorphous material after being processed through above-mentioned heat treatment method in embodiment 1-9 is made, and it is right Ratio 1-2, in the case of frequency, voltage constant, inductance is as follows with the test data of electric current：

Test data 1：Frequency：100HZ voltages：0.3V units：Electric current (A), inductance (uH)

Test data 2：Frequency：1KHZ voltages：0.3V units：Electric current (A), inductance (uH)

Test data 3：Frequency：10KHZ voltages：0.3V units：Electric current (A), inductance (uH)

As above table as can be seen that Fe-based amorphous material obtained by the method treatment of comparative example 1 and embodiment 2-9 Material, there is some difference for the crystallinity change of material internal, non-using iron-based from overall data in applying to inductance coil The coil that brilliant material makes, inductance increases with the increase of electric current, the Fe-based amorphous material after detecting that embodiment 1-9 is processed The soft magnet performance of material, testing result shows that the soft magnet performance of embodiment 1 is comparatively stablized.It can be seen that temperature is non-to iron-based The soft magnet performance and mechanical property of brilliant material have large effect, and excellent soft magnet performance only has by suitable heat treatment rear Can manifest, in the case that temperature is relatively low, it is impossible to inspire the soft magnet performance of material, the loss of material is larger, and at embodiment 1 Fe-based amorphous material after reason, input inductance coil can effectively reduce the damage of Fe-based amorphous material by test in the middle of Consumption, reduces the consumption of energy, improves magnetic flux.

By above table as can be seen that comparative example 1 and comparative example 1, are made using Fe-based amorphous material Inductance coil and existing inductance coil, in the case of frequency, voltage constant, inductance can reduce with the increase of electric current, and Fe-based amorphous material is increased with the increase of electric current.Existing inductance coil inductance is smaller, with the increase of electric current, easily There is the unstable phenomenon for passing through of electric current, spillage of material is very fast, so as to increased energy ezpenditure；And by the technical program heat at The inductance coil that Fe-based amorphous material after reason is made, inductance is larger, the crystallinity increase after heat treatment so that Fe-based amorphous material The internal quantity of electric charge that more in order, unit area the passes through increase of material, electric current increase, electric current passes through relatively more stable, spillage of material Slowly, energy ezpenditure reduces.

By above table as can be seen that comparative example 1 and comparative example 2, nitrogen is relatively steady under normal temperature condition It is fixed, but for nitrogen is with respect to argon gas under the high temperature conditions, relative to be not sufficiently stable, inductance can occur up and down with the change of electric current The wild effect of floating, therefore, from the point of view of the security standpoint of heat treatment process, argon gas is safer.

Above-described is only embodiments of the invention, and the general knowledge such as known concrete structure and characteristic is not made herein in scheme Excessive description.This application claims protection domain should be defined by the content of its claim, the specific embodiment party in specification Formula etc. records the content that can be used for explaining claim.

Claims (6)

1. the heat treatment method of Fe-based amorphous material, it is characterised in that use following heat treatment step：

Step one：Fe-based amorphous material is put into vacuum chamber, to argon gas is filled with vacuum chamber, vacuum chamber is carried out at heating Reason；

Step 2：After uniformly being heated from normal temperature 80 minutes and being heated to 290-310 DEG C, constant temperature is kept 30 minutes；

Step 3：After completing step 2, continue to heating stove heat 70 minutes to 410-430 DEG C, and keep constant temperature 50 minutes；

Step 4：After completing step 3, continue to heating stove heat 90 minutes to 540-560 DEG C, and keep constant temperature 60 minutes；

Step 5：Stop heating, Fe-based amorphous material temperature in the vacuum chamber of heating furnace is down to 470-490 DEG C；

Step 6：The Fe-based amorphous material after being processed through step 5 is taken out from the vacuum chamber of heating furnace, normal temperature is naturally cooled to.

2. the heat treatment method of Fe-based amorphous material according to claim 1, it is characterised in that：Step 2 is uniform from normal temperature Heating 80 minutes and after being heated to 300 DEG C, keeps constant temperature 30 minutes.

3. the heat treatment method of Fe-based amorphous material according to claim 1, it is characterised in that：Continuation pair adds in step 3 Hot stove heat 70 minutes to 420 DEG C, and keep constant temperature 50 minutes.

4. the heat treatment method of Fe-based amorphous material according to claim 1, it is characterised in that：Continuation pair adds in step 4 Hot stove heat 90 minutes to 550 DEG C, and keep constant temperature 60 minutes.

5. the heat treatment method of Fe-based amorphous material according to claim 1, it is characterised in that：It is Fe-based amorphous in step 5 Material temperature in the vacuum chamber of heating furnace is down to 480 DEG C.

6. the heat treatment method of Fe-based amorphous material according to claim 1, it is characterised in that：To vacuum chamber in step one In be filled with nitrogen.