CN110000368A - A kind of intelligent multi-function metallurgy tundish and its casting method - Google Patents
A kind of intelligent multi-function metallurgy tundish and its casting method Download PDFInfo
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- CN110000368A CN110000368A CN201910418150.7A CN201910418150A CN110000368A CN 110000368 A CN110000368 A CN 110000368A CN 201910418150 A CN201910418150 A CN 201910418150A CN 110000368 A CN110000368 A CN 110000368A
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- tundish
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- casting area
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F33/00—Other mixers; Mixing plants; Combinations of mixers
- B01F33/45—Magnetic mixers; Mixers with magnetically driven stirrers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D1/00—Treatment of fused masses in the ladle or the supply runners before casting
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D41/00—Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like
- B22D41/005—Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like with heating or cooling means
- B22D41/01—Heating means
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B22—CASTING; POWDER METALLURGY
- B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
- B22D41/00—Casting melt-holding vessels, e.g. ladles, tundishes, cups or the like
- B22D41/50—Pouring-nozzles
- B22D41/62—Pouring-nozzles with stirring or vibrating means
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Continuous Casting (AREA)
- Casting Support Devices, Ladles, And Melt Control Thereby (AREA)
- Treatment Of Steel In Its Molten State (AREA)
Abstract
The present invention provides a kind of intelligent multi-function metallurgy tundish.The tundish includes backpack body, ladle canal, induction heating apparatus and electromagnetic mixing apparatus, it is equipped with the first refractory material layer in the backpack body, backpack body is divided into impact zone and casting area setting up and down, the ladle canal is connected between the impact zone and casting area and forms a closed loop, the induction heating apparatus runs through the tundish in impact zone and casting area boundary, and the electromagnetic mixing apparatus is arranged in the side-wall outer side of the backpack body.Compared with the relevant technologies, intelligent multi-function metallurgy tundish provided by the present invention is in the continuous casting casting all stage, the metallurgical effect that tundish overall process stirring and heating is realized using the cooperation multiphase modular electromagnetic stirring of tundish induction heating technique, improves the molten steel flow performance in most stream basket pouring areas and pouring area distal end.The present invention also provides a kind of casting methods of intelligent multi-function metallurgy tundish.
Description
Technical field
The present invention relates to continuous casting of iron and steel metallurgical technology field more particularly to a kind of intelligent multi-function metallurgy tundish and its
Casting method.
Background technique
Tundish as the last one refractory material containers during connecting big packet and crystallizer in continuous casting smelting process,
Tundish metallurgy is a special furnace outer refining technology, is the key link for obtaining high quality continuous casting billet.
During steel casting, tundish is other than stablizing beam, realizing sequence casting, it is often more important that plays promotion
The floating of field trash excludes and the important function of pure molten steel.And molten steel overheat stability in these key factors and packet
Control and tundish in uniform flow field reasonability it is closely bound up.In tundish metallurgy technical process, there is in this way
The point of one opposition: if wishing, the center segregation index of continuous casting billet is lower, then the degree of superheat of tundish is as low as possible, if but uncommon
Hope continuous casting billet field trash index it is lower, then the degree of superheat of tundish improve as far as possible be conducive to the collision of field trash and on
Transportation by driving is dynamic, therefore, the defects of in order to eliminate or reduce segregation and the field trash in continuous casting billet simultaneously, it is necessary to by the steel in tundish
Coolant-temperature gage controls in very narrow range, and external and most domestic steel mill is just trying through tundish channel type sense at present
Refining techniques should be heated to go to improve this problem, the tundish channel type induction heating apparatus gradually promoted and applied in recent years formally at
For a kind of most effective means of tundish temperature compensation and inclusion removal.
But in practical applications, most of steel mill's pouch-type be based on T-type tundish, if upper induction heating equipment,
So induction coil can only be arranged between the impact zone of Metal in Tundish and trough casting area, and induction coil is along big Bao Changshui
Mouth (big water-coating port is by steel device) casting direction center line arrangement, the induction channels of induction coil two sides are disposed to connect in splayed configuration
The molten steel of impact zone and casting area is connect, induction heating is carried out to molten steel to form a complete loop, it is contemplated that come into operation function
Rate is bigger, the security reliability of use environment, be bound to cause inductor take up space it is bigger, and under normal conditions, long water
Mouth drop point and submersed nozzle drop point spacing are generally between 800mm ~ 1200mm, for the stream of multithread odd number stream such as 5, especially
7 streams, there is the undesirable situations in intermediate flow flow field (as shown in Figure 1, middle part does not have flow field and is low-temperature space, tundish two sides
Having flow field is high-temperature region), in most cases, we must go to alleviate this problem by dam or weir, but for special steel
Metallurgical process, since the high temperature of molten steel washes away, these dams or weir also become a kind of pollution sources in fact.
It on the other hand, will be according to the technological requirements in entire continuous casting process for channel-type induction heating tundish
To control the power that comes into operation of induction heating.At continuous casting initial stage, since big Baogang's coolant-temperature gage is higher, induction heating tundish at this time
Hardly need come into operation it is high-power, and in the continuous casting middle and later periods, since big Baogang's coolant-temperature gage declines, although tundish accumulation of heat is abundant,
But the temperature decline of whole molten steel requires molten steel in tundish to need to open induction heating to supplement molten steel temperature drop.At this moment, intermediate
The additional effect of packet induction heating is just sent out as the pinch effect in the upper up-flow of temperature difference and channel goes to be mingled with effect
It waves, as patent CN104249149A refers to tundish induction heating cooperation channel Argon, it is intended to can apply in the full mistake of continuous casting
Removal of inclusions and uniform liquid steel temperature in journey.But this method solves only Process Problems, does not solve 5 stream of majority odd number stream, 7
The root problem in flow field is flowed, while channel Argon is equivalent to and also reduces the temperature that tundish goes out channel, certainly will weaken tundish
Induction heating self-temperature difference causes the additional effect of density upper up-flow.
Therefore, it develops in a kind of intelligent multi-function metallurgy tundish channel type induction heating and intelligent multi-function metallurgy
Between the packet electromagnetic agitation New Metallurgical Technology combined and the device of a set of feasibility be that we need research and development at present or even in the future
The integrated equipment being of great significance.
Summary of the invention
Technical problem solved by the invention is, in view of the deficiencies of the prior art, provides a kind of intelligent multi-function smelting
Golden tundish and its casting method, by the metallurgical technology and device of electromagnetic agitation and the double integrated overall processes of induction heating, on the one hand
Tundish metallurgy early, middle, late stage is stirred by the stirring of multiphase modular electromagnetic, improves Metal in Tundish and final products
Degree of purity, uniformly between each stream on the other hand temperature and ingredient cooperate tundish channel type induction heating to solve early, middle, late stage,
Molten steel overheat constant temperature casting improves casting casting sequence, reduces foreign substance in molten steel index;Form a set of intelligent multi-function smelting
The overall process of golden tundish metallurgy completely new new process and new equipment.
The technical scheme is that a kind of intelligent multi-function metallurgy tundish comprising:
Backpack body is divided into impact zone and casting area setting up and down by backpack body, interior first refractory material layer that is equipped with;The casting area
Interior steel flow is M odd number stream, and M is positive integer;
Ladle canal is connected between the impact zone and casting area and forms a closed loop with impact zone and casting area;
Induction heating apparatus, the induction heating apparatus run through the tundish, the sense in impact zone and casting area boundary
Answer the excitation coil of heating device in the closed loop;
Electromagnetic mixing apparatus is arranged comprising N number of multiphase module group is wrapped in each module group in the side-wall outer side of the backpack body
Include K module, wherein N >=2, K=3 or 6.
Above-mentioned multiphase module group indicate the combining form of every group of agitating device be it is independent, pass through the stirring after modularization
Device is since the occupied installation space of individual module is small and form is independent, easy to install and disassemble reliable, to steel in tundish
Stirring for water preferably acts on.
In above scheme, realize that electromagnetic-induction heating method can reduce the casting degree of superheat by induction heating apparatus, favorably
Attenuate and increase in the equiax crystal of slab, meanwhile, molten steel can be extended by intelligent multi-function metallurgy tundish electromagnetic agitation
Residence time and mixed zone ratio, can thoroughly improve the stream of multithread odd number stream such as 5, and the dead zone ratio of especially 7 stream intermediate flows mentions
High " going to be mingled with " function of intelligent multi-function metallurgy tundish metallurgy.
Preferably, as K=3,3 modules are mutually 120 ° of three-phase structure;As K=6,60 ° are mutually between 6 modules
Six phase structures;The longitudinal center of 3 or 6 modules from intelligent multi-function metallurgy tundish tilts down setting, the line of centres
It is 0 ~ 15 ° with horizontal angle.
Preferably, as N=2, which presses the sequence arrangement of U, V, W, and it is intermediate to form intelligent multi-function metallurgy
Wrap the opposite dual stage combined annular stirring of internal mixing direction.
Preferably, as N > 2, wherein there is the sequence that one group is U, V, W to arrange, remaining is any two-phase for exchanging U, V, W
Sequence arranges, and forms the annular stirring that mixing direction inside intelligent multi-function metallurgy tundish is a general direction.
Preferably, the backpack body side wall is equipped with the groove for accommodating electromagnetic mixing apparatus, passes through the stirring after modularization
Since the occupied installation space of individual module is small and form is independent, each module can be distinguished device by the way of insertion
It is contained in corresponding groove, related installation and transformation without interfering other relevant devices.
Preferably, the excitation coil periphery is equipped with the second refractory material layer, and second refractory material layer is connected to the
Between one refractory material layer and intelligent multi-function metallurgy tundish inner wall.
Preferably, molten steel fluxion M=5 or 7 in the casting area, arrangement and proximity electromagnetic stirring in the casting area
Device setting.
Preferably, ladle canal diameter D=φ 100mm- φ 200mm, passage length are L=800mm-1700mm.
Preferably, the ladle canal is 2 × F, F >=1 and be positive integer, is respectively communicated in the impact zone and casting
The two sides in area, as F=1, the two sides of impact zone and casting area respectively set one;As F > 1, the two sides of impact zone and casting area are flat
Distribute.
The present invention also provides a kind of intelligent multi-function metallurgy trough casting methods, comprising:
When continuous casting starts, molten steel enters intelligent multi-function metallurgy tundish impact area and exists respectively after reaching certain liquid level
Impact zone and casting area are added covering slag and form slag blanket;
Start electromagnetic mixing apparatus, after molten steel enters casting area from ladle canal in impact zone, in electromagnetic mixing apparatus certain party
To multiphase magnetic field agitation effect under, steel flow stock is mixed to casting area all directions;
Starting induction heating apparatus heats molten steel in tundish, and the molten steel in channel is by electromagnetism constriction power and heat buoyancy
Effect, the molten steel flowed out from channel carries field trash and floats up to slag blanket, and is adsorbed removal;
Electromagnetic mixing apparatus is worked at the same time with induction heating apparatus, until completing casting.
Above-mentioned casting method cooperation intelligent multi-function metallurgy tundish electromagnetic agitation mixes the molten steel after heating
Uniformly, it improves the uniformity of temperature and ingredient between each stream and reduces the use of barricade, dam weir refractory material, effective solution
Multithread odd number stream such as 5 flows, and especially 7 streams, there is the undesirable situations in intermediate flow flow field;So far, intelligence has preferably been played
Change multi-functional metallurgical tundish induction heating early, middle, late stage, the constant temperature casting of molten steel overheat improves casting casting sequence, drop
Low foreign substance in molten steel index;Form the completely new metallurgical technology side of the overall process of a set of intelligent multi-function metallurgy tundish metallurgy
Method.
Compared with the relevant technologies, the invention has the following advantages:
One, in the continuous casting casting all stage, cooperate multiphase mould using intelligent multi-function metallurgy tundish induction heating technique
Block electromagnetic agitation realizes the metallurgical effect of intelligent multi-function metallurgy tundish overall process stirring and heating, improves most stream intelligence
The molten steel flow performance in energyization multi-functional metallurgical basket pouring area and pouring area distal end;
Two, the casting degree of superheat can be reduced by intelligent multi-function metallurgy tundish electromagnetic-induction heating method, is conducive to slab
Equiax crystal attenuate and increase, meanwhile, when can extend the stop of molten steel by intelligent multi-function metallurgy tundish electromagnetic agitation
Between, it can thoroughly improve the stream of multithread odd number stream such as 5, the dead zone ratio of especially 7 stream intermediate flows improves intelligent multi-function smelting
" going to be mingled with " function of golden tundish metallurgy;
Three, needle can be can be carried out to fluidity molten steel in intelligent multi-function metallurgy tundish by the stirring of multiphase modular electromagnetic
It to property adjusts in real time, reduce or reduces dam and keep off the consumption on weir, reduce pollution of the refractory consumption to molten steel quality, improve
Special steel quality.
Detailed description of the invention
Fig. 1 is existing multithread intelligent multi-function metallurgy tundish induction heating Flow Field Distribution schematic diagram;
Fig. 2 is the schematic cross-section of intelligent multi-function metallurgy tundish provided by the invention;
Fig. 3 is the present invention looks up structural representation along Fig. 2;
Fig. 4 is the stream under the double integrated systems of intelligent multi-function metallurgy tundish electromagnetic mixer induction heating provided by the invention
Field distribution schematic diagram;
Fig. 5 is the steel under the double integrated systems of intelligent multi-function metallurgy tundish electromagnetic mixer induction heating provided by the invention
Water RTD curve graph.
In attached drawing, 1- backpack body, the first refractory material layer of 2-, 3- impact zone, 4- casting area, 5- ladle canal, 6- induction add
Thermal, 7- electromagnetic mixing apparatus, the second refractory material layer of 8-.
Specific embodiment
Come that the present invention will be described in detail below with reference to attached drawing and in conjunction with the embodiments.It should be noted that in the feelings not conflicted
Under condition, the feature in embodiment and embodiment in the present invention be can be combined with each other.For sake of convenience, hereinafter as occurred
"upper", "lower", "left", "right" printed words only indicate consistent with the upper and lower, left and right direction of attached drawing itself, do not play limit to structure
It is set for using.
Embodiment one
As shown in Fig. 2 ~ Fig. 5, a kind of intelligent multi-function metallurgy tundish provided in this embodiment includes backpack body 1, induction heating
Device 6 and electromagnetic mixing apparatus 7.The first refractory material layer 2 is provided in the backpack body 1, first refractory material layer 2 will packet
Body 1 is divided into impact zone 3 and casting area 4 setting up and down.Molten steel is flowed 3 two sides of impact zone, and logical by the stream steel of two sides
Road 5 is connected to casting area 4 constitutes a closed loop, to form the working forms for being similar to transformer short-circuit.It is described
The quantity of ladle canal 5 is two.Since the molten steel that is connected to has conductivity, and in ladle canal 5 molten steel section
Product is smaller compared to other positions, and current density is bigger, is main heating region in ladle canal 5 therefore.Induction heating
Device runs through the intelligent multi-function metallurgy tundish in impact zone and casting area boundary, and the induction heating apparatus swashs
Coil is encouraged in the closed loop, i.e., induction heating apparatus is installed on the heating region, can be to loop middle section small electric
It hinders biggish circulation passage and carries out concentration heating.Pass through the data feedbacks such as the continuous thermometering device of molten steel and internal Metal Weight
To host computer, the implementation on-line continuous adjusting of induction heating apparatus 6 Yu liquid steel temperature can be realized.Intelligence provided by the invention
Multi-functional metallurgy tundish introduces electromagnetic induction heating and electromagnetic agitating technology on the basis of conventional intermediate plate, can pass through
On-line continuous temperature measurement signal feeds back to electric-control system and executes heating function rate and intelligently adjust.Wherein, temperature measuring equipment, weight induction
Device and host computer are the prior art, and those skilled in the art can be realized, and therefore, specific structure principle is no longer superfluous herein
It states.
The material of the ladle canal is made of heat-resisting material, and quantity is two, channel diameter are as follows: D=φ
100mm- φ 200mm, passage length are L=800mm-1700mm.
Electromagnetic mixing apparatus 7 is arranged in the side-wall outer side of the backpack body 1 comprising 2 multiphase module groups, each module group
In include 3 modules, 3 modules are mutually 120 ° of three-phase structure, and 3 modules are from the longitudinal direction of intelligent multi-function metallurgy tundish
Center tilts down setting (as shown in Figure 3), and the line of centres and horizontal angle β are 0 ~ 15 °.And the two modules group is pressed
U, the sequence arrangement of V, W, and the sequence arranged opposite of U, V, W, form mixing direction inside intelligent multi-function metallurgy tundish
Opposite dual stage combined annular stirs (as shown in Figure 4).
1 side wall of backpack body is equipped with the groove for accommodating electromagnetic mixing apparatus 7, each module of electromagnetic mixing apparatus 7
All be it is independent, by independent module it is integrated after, installation space is small, and the mode that can be embedded in is mounted in corresponding groove.
The excitation coil periphery of the induction heating apparatus 6 is equipped with the second refractory material layer 8, second refractory material layer
8 are connected between the first refractory material layer 2 and intelligent multi-function metallurgy tundish inner wall.
Molten steel fluxion M=5 or 7 in the casting area arrange in the casting area and proximity electromagnetic agitating device are set
It sets.
A kind of intelligent multi-function metallurgy trough casting method provided in this embodiment, comprising:
At continuous casting initial stage, the molten steel wrapped greatly is entered in intelligent multi-function metallurgy tundish impact area by long nozzle, works as molten steel
After reaching certain liquid level, covering slag is added in impact zone and casting area respectively and forms slag blanket.
In the early stage since molten steel has the higher degree of superheat, therefore, there is no need to open induction heating apparatus, meanwhile, after transformation
Backpack body 1 due to big packet drop point with the casting mouth of a river apart from closer, generally between 800mm-1200mm, and induction heating fills
It sets 6 and needs to occupy backpack body space, therefore, for the stream of multithread odd number stream such as 5, especially 7 streams, whether early period, middle and later periods are deposited
In the undesirable situation in intermediate flow field, to reach better metallurgical effect, at this point, opening module electromagnetic mixing apparatus 7, electricity
Magnetic agitating device 7 can be according to the sequence of U, V, W three-phase, and to control Movement in Magnetic Field direction, magnetic field generates induced electricity in molten steel
Flow and with main field collective effect, then formed push molten steel movement Loulun magnetism, in addition, can be according to the different of modular device
Mounting height, that is, Movement in Magnetic Field angle forms the controllable movement upward or downward of molten steel, controls molten steel in backpack body 1 with this
Motion state is so as to improve multithread intelligent multi-function metallurgy Tundish Flow Field and temperature field problem of non-uniform.
After molten steel enters casting area from channel in impact zone, under the action of the multiphase magnetic field agitation of specific direction, stock is flowed
It is mixed to casting area all directions, to effectively remove intelligent multi-function metallurgy tundish minimal internal dead space area, is increased
Add the mean residence time and mixed zone volume of molten steel, meanwhile, it also increases field trash and collides the probability grown up, improve intelligence
The degree of purity of energyization multi-functional metallurgical Metal in Tundish and final products;In the continuous casting intermediary and later stages, the induction heating that comes into operation is to intelligence
It is multi-functional metallurgy tundish in molten steel heated, stablize casting the degree of superheat fluctuation it is constant, due to the molten steel in channel by
To the effect of electromagnetism constriction power and heat buoyancy, the molten steel flowed out from channel carries field trash and floats up to slag blanket and be adsorbed removal.
Electromagnetic mixing apparatus is worked at the same time with induction heating apparatus, until completing casting.
Embodiment two
The present embodiment is unlike embodiment one: electromagnetic mixing apparatus 7 is arranged in the side-wall outer side of the backpack body 1 comprising 2
A above multiphase module group includes 3 modules in each module group, and 3 modules are mutually 120 ° of three-phase structure, one of them
Module group is arranged by the sequence of U, V, W, and another set is to exchange any two phase sequence arrangement (such as U, W, V) of U, V, W, thus
Mixing direction is the annular stirring an of general direction inside intelligent multi-function metallurgy tundish.
Embodiment three
The present embodiment is unlike embodiment one: electromagnetic mixing apparatus 7 is arranged in the side-wall outer side of the backpack body 1 comprising 2
A above multiphase module group includes 6 modules in each module group, 60 ° of six phase structures is mutually between 6 modules, wherein
One module group is arranged by the sequence of U, V, W, remaining is any two phase sequence arrangement for exchanging U, V, W, thus intelligent more
Mixing direction is the annular stirring an of general direction inside function metallurgy tundish.Equally, 6 modules are from intelligent multi-function
The longitudinal center of metallurgical tundish tilts down setting, and the line of centres and horizontal angle are 0 ~ 15 °.
Example IV
The present embodiment is unlike embodiment three: electromagnetic mixing apparatus 7 is arranged in the side-wall outer side of the backpack body 1 comprising 2
A multiphase module group includes 6 modules in each module group, and 60 ° of six phase structures, and two module are mutually between 6 modules
Group is arranged by the sequence of U, V, W, forms the dual stage group cyclization that mixing direction is opposite inside intelligent multi-function metallurgy tundish
Shape stirring.
The above description is only an embodiment of the present invention, is not intended to limit the scope of the invention, all to utilize this hair
Equivalent structure or equivalent flow shift made by bright specification and accompanying drawing content is applied directly or indirectly in other relevant skills
Art field, is included within the scope of the present invention.
Claims (10)
1. a kind of intelligent multi-function metallurgy tundish characterized by comprising
Backpack body is divided into impact zone and casting area setting up and down by backpack body, interior first refractory material layer that is equipped with;The casting area
Interior steel flow is M odd number stream, and M is positive integer;
Ladle canal is connected between the impact zone and casting area and forms a closed loop with impact zone and casting area;
Induction heating apparatus, the induction heating apparatus run through the tundish, the sense in impact zone and casting area boundary
Answer the excitation coil of heating device in the closed loop;
Electromagnetic mixing apparatus is arranged comprising N number of multiphase module group is wrapped in each module group in the side-wall outer side of the backpack body
Include K module, wherein N >=2, K=3 or 6.
2. tundish according to claim 1, which is characterized in that as K=3,3 modules are mutually 120 ° of three-phase structure;
As K=6,60 ° of six phase structures are mutually between 6 modules;3 or 6 modules are tilted down from the longitudinal center of tundish to be set
It sets, the line of centres and horizontal angle are 0 ~ 15 °.
3. tundish according to claim 2, which is characterized in that as N=2, which presses the sequence of U, V, W
Arrangement forms the opposite dual stage combined annular stirring of mixing direction inside tundish.
4. tundish according to claim 2, which is characterized in that as N > 2, wherein there is the sequence that one group is U, V, W to arrange
Column, remaining is any two phase sequence arrangement for exchanging U, V, W, forms the ring that mixing direction inside tundish is a general direction
Shape stirring.
5. tundish described according to claim 1 or 3 or 4, which is characterized in that the backpack body side wall is equipped with for accommodating electromagnetism
The groove of agitating device, each module are respectively received in corresponding groove.
6. tundish described according to claim 1 or 3 or 4, which is characterized in that the excitation coil periphery is equipped with the second fire resisting
Material layer, second refractory material layer are connected between the first refractory material layer and tundish inner wall.
7. tundish described according to claim 1 or 3 or 4, which is characterized in that molten steel fluxion M=5 in the casting area or
7, arrangement and the setting of proximity electromagnetic agitating device in the casting area.
8. tundish described according to claim 1 or 3 or 4, which is characterized in that ladle canal diameter D=φ 100mm- φ
200mm, passage length are L=800mm-1700mm.
9. tundish described according to claim 1 or 3 or 4, which is characterized in that the ladle canal is 2 × F, F >=1 and
For positive integer, the two sides in the impact zone and casting area are respectively communicated with, as F=1, the two sides of impact zone and casting area are respectively set
One;As F > 1, the two sides mean allocation of impact zone and casting area.
10. a kind of casting method of intelligent multi-function metallurgy tundish characterized by comprising
When continuous casting starts, molten steel enters intelligent multi-function metallurgy tundish impact area and exists respectively after reaching certain liquid level
Impact zone and casting area are added covering slag and form slag blanket;
Start electromagnetic mixing apparatus, after molten steel enters casting area from ladle canal in impact zone, in electromagnetic mixing apparatus certain party
To multiphase magnetic field agitation effect under, steel flow stock is mixed to casting area all directions;
Starting induction heating apparatus heats molten steel in tundish, and the molten steel in channel is by electromagnetism constriction power and heat buoyancy
Effect, the molten steel flowed out from channel carries field trash and floats up to slag blanket, and is adsorbed removal;
Electromagnetic mixing apparatus is worked at the same time with induction heating apparatus, until completing casting.
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CN111215615A (en) * | 2020-03-04 | 2020-06-02 | 中天钢铁集团有限公司 | Continuous casting tundish capable of improving purity of molten steel and metallurgical process thereof |
CN111842821A (en) * | 2020-07-30 | 2020-10-30 | 鼎镁(昆山)新材料科技有限公司 | Electromagnetic treatment method for melt cast by aluminum alloy flow table |
CN112371969A (en) * | 2020-10-20 | 2021-02-19 | 青岛正望钢水控制股份有限公司 | Implementation method of functional refractory material of channel type electromagnetic induction heating tundish |
CN117680666A (en) * | 2024-02-04 | 2024-03-12 | 湖南中科电气股份有限公司 | Vortex protection system of channel type induction heating tundish |
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CN210115452U (en) * | 2019-05-20 | 2020-02-28 | 湖南中科电气股份有限公司 | Intelligent multi-functional metallurgical tundish |
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CN111215615A (en) * | 2020-03-04 | 2020-06-02 | 中天钢铁集团有限公司 | Continuous casting tundish capable of improving purity of molten steel and metallurgical process thereof |
CN111842821A (en) * | 2020-07-30 | 2020-10-30 | 鼎镁(昆山)新材料科技有限公司 | Electromagnetic treatment method for melt cast by aluminum alloy flow table |
CN112371969A (en) * | 2020-10-20 | 2021-02-19 | 青岛正望钢水控制股份有限公司 | Implementation method of functional refractory material of channel type electromagnetic induction heating tundish |
CN112371969B (en) * | 2020-10-20 | 2021-09-24 | 青岛正望钢水控制股份有限公司 | Implementation method of functional refractory material of channel type electromagnetic induction heating tundish |
CN117680666A (en) * | 2024-02-04 | 2024-03-12 | 湖南中科电气股份有限公司 | Vortex protection system of channel type induction heating tundish |
CN117680666B (en) * | 2024-02-04 | 2024-04-05 | 湖南中科电气股份有限公司 | Vortex protection system of channel type induction heating tundish |
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