CN104128592B - Device for refining metal solidification structure with electric current pulses - Google Patents

Abstract

The invention relates to a device for refining a metal solidification structure with electric current pulses, and belongs to the technical field of metal material machining. The device mainly comprises a smelting device, an electric current pulse generating device and a heat insulation and solidification device. The smelting device is used for smelting molten metal, an appropriate pouring temperature is controlled, and the molten metal is injected into the heat insulation and solidification device through a pouring channel. In the solidification process, the electric current pulse generating device is used for exerting the electric current pulses with in a certain parameter range, and the metal solidification structure is refined. In the refining process, the cooling speed of the molten metal can be controlled by the means of heat insulation or heating or introducing of cooling water, the structure is promoted to be solidified simultaneously, and therefore a refining technology is optimized. The device integrates with smelting, pouring and solidifying with electric current pulse refining processing of alloy, the entire process is achieved at a time, the process is simple, the repeatability is high, a good effect is achieved on refining the metal solidification structure, and meanwhile the quality of the processed smelt and the controllability of the processing process are improved.

Description

A kind of device of pulse current thinning metal solidification texture

Technical field

The present invention relates to a kind of device of pulse current thinning metal solidification texture, belong to metal material processing technology neck Domain.

Background technology

In materials science field, the refinement of metal solidification texture is the weight improving metal material performance and expanding purposes Want one of approach.With the development of modern science and technology, the requirement to material property for the people improves constantly, metal solidification texture Refinement or improvement are conducive to improving the mechanical property of material.With the continuous development of solidification technology, many emerging solidified structures Process for refining arises at the historic moment, the wherein impact to metal solidification texture for the pulse current (electric current pulse, ecp) Very notable, substantially, cleaning is effectively, with low cost, becomes the focus of current research for thinning effect.

It is known that under conditions of not changing alloying component, by suitable material deformation process or Technology for Heating Processing, The tissue that metal material can be made occurs significantly to refine, thus reaching the purpose improving its performance.From before the sixties in last century Since Soviet scientists o.a.troitskii finds electro plastic effect, pulsed current annealing is thin as a kind of special material Change processing method to receive significant attention.The mechanism of action of pulse current thinning metal solidification texture mainly has the following aspects: Fluctuation effect, Kelvin effect, electromigration effect, joule effect, peltier effect etc..

Current pulsed current annealing method mainly has two kinds, and one kind is that metal bath is poured in casting mold, directly exists In casting mold, pulse current is applied to metal bath, reach the purpose of thinning solidification structure.This kind of method is simple to operate, operation letter Clean, application is more universal.But metal bath rate of cooling in casting mold is very fast, and cooling procedure is wayward, therefore limits pulse The thinning effect of electric current.Another kind of method is by test button remelting, by heating sample remelting in a furnace, in a furnace Control metal bath rate of cooling, cooling procedure applies pulse current.But this kind of method carries out secondary remelting, gesture to sample Impact must be produced on the composition of alloy, and sample is oxidized easily in reflow process, so that the quality of materials of acquisition is reduced.Separately Outward, the increase of remelting operation is also not easy to commercial Application.Accordingly, it would be desirable to develop a kind of specialty being applied to pulsed current annealing Solidification equipment, makes the melting of alloy, cast, solidification, pulse current micronization processes once complete, simplifies pulsed current annealing technique And intensifier pulse current processing effect.The process quality of melt and the controllability of processing procedure can be improved simultaneously.

Content of the invention

For the unfavorable problem during the existing pulse current thinning metal solidification texture of solution, simplify pulsed current annealing work Sequence, intensifier pulse current processing effect simultaneously optimizes pulsed current annealing technique, improves simultaneously and processes the quality of melt and processed The controllability of journey.The present invention is intended to provide a kind of pulse current thinning metal solidification texture device, this device include smelting furnace 1, plus Heat coil 2, thermocouple 3, support 5, running channel 6, holding furnace 7, heating coil 8, support 9, crystallizer 12, high-voltage pulse Power supply 13, compensating wire 14, heat-insulated asbestos 15, electrode 16, thermocouple 17, support 5 is connected with support 9, whole for supporting Individual device；Smelting furnace 1 is located on support 5, and the side wall of smelting furnace 1 is provided with heating coil 2, and thermocouple 3 hangs on the top of smelting furnace 1 Portion stretches into inside smelting furnace 1；Holding furnace 7 is located on support 9, and the side wall of holding furnace 7 is provided with heating coil 8, holding furnace 7 Top is coated with heat-insulated asbestos 15；Crystallizer 12 is placed in holding furnace 7, and running channel 6 passes through heat-insulated asbestos 15 to be directed at crystallizer 12；Electricity Pole 16 and thermocouple 17 stretch into inside crystallizer 12 through heat-insulated asbestos 15；High-voltage pulse power source 13 passes through compensating wire 14 He Electrode 16 is connected, and smelting furnace 1 is placed in tiltable on support 5.

Crystallizer 12 hollow of the present invention, the side wall lower ends of crystallizer 12 are provided with crystallizer coolant outlet 10, crystallization Device cooling water inlet 11, can control metal bath rate of cooling by being incubated, heating or be passed through the means such as cooling water.

Electrode 16 of the present invention and thermocouple 17 stretch into crystallizer 12 through heat-insulated asbestos 15, can move up and down；And And can be preheated to crystallizer 12, electrode 16 and thermocouple 17 by the heating coil 8 of holding furnace 7.

High-voltage pulse power source 13 waveform of the present invention is multigroup sawtooth-shaped pulse ripple, and voltage is 0～1600v, and frequency is 0 ～50hz, pulsewidth is 10～100 μ s.

The use process of device of the present invention: heated using heating coil 2 in smelting furnace 1, melt out metal bath 4, Measure the temperature of metal bath 4 with thermocouple 3, control suitable pouring temperature；After reaching pouring temperature requirement, by support 5 Tilt, make metal bath 4 inject crystallizer 12 along running channel 6；Cast start before, first with holding furnace 7 heating coil 8 to knot Brilliant device 12, electrode 16 and thermocouple 17 are preheated, and make thermocouple 17 measured temperature synchronous with thermocouple 3 measured temperature； It is poured into the temperature after crystallizer 12, surveyed according to thermocouple 17 after metal bath 4, the power of adjustment heating coil 8 comes It is incubated；In cooling procedure, it is passed through to crystallizer cooling water inlet 11 by adjusting the power or adjust of heating coil 8 The speed of cooling water is controlling the rate of cooling of metal bath 4；Meanwhile, electrode 16 and thermocouple 17 are extend into metal bath In 4, open high-voltage pulse power source 13, metal bath 4 is applied with the pulse current of certain parameter；After pulsed current annealing terminates, Electrode 16 and thermocouple 17 are moved up and withdraws from metal bath 4.In whole processing procedure, by adjusting high-voltage pulse electric The parameter in source 13, pulsed current annealing time, the power of heating coil 8 and be passed through cooling to crystallizer cooling water inlet 11 The speed of water, to obtain, crystal grain is tiny, even tissue metal solidification texture.

Beneficial effects of the present invention:

(1) device of the present invention can effective control metal bath rate of cooling, under certain rate of cooling apply Pulse current, promotion organization solidifies simultaneously, crystal grain thinning, improves material property；

(2) device of the present invention is applicable to the refinement of the solidified structure of different-alloy, is widely used；

(3) melting of device sets gold of the present invention, cast, solidification and pulse current micronization processes are integrated, entirely Process disposably completes, and operation is simple, repeatable strong, optimizes pulsed current annealing technique；

(4) device of the present invention has good result to the refinement of metal solidification texture, improves process melt simultaneously Quality and processing procedure controllability.

Brief description

Fig. 1 is the structural representation of device of the present invention；

Fig. 2 is the metallographic structure figure before micronization processes；

Fig. 3 is the metallographic structure figure after the embodiment of the present invention 1 micronization processes；

Fig. 4 is the metallographic structure figure after the embodiment of the present invention 2 micronization processes；

Fig. 5 is the metallographic structure figure after the embodiment of the present invention 3 micronization processes.

In figure: 1- smelting furnace, 2- heating coil, 3- thermocouple, 4- metal bath, 5- support, 6- running channel, 7- holding furnace, 8- heating coil, 9- support, 10- crystallizer coolant outlet, 11- crystallizer cooling water inlet, 12- crystallizer, 13- is high The pressure pulse power, 14- compensating wire, the heat-insulated asbestos of 15-, 16- electrode, 17- thermocouple.

Specific embodiment

With reference to the accompanying drawings and detailed description the present invention is described in further detail, but protection scope of the present invention It is not limited to described content.

Embodiment 1

The device of pulse current thinning metal solidification texture described in the present embodiment, this device includes smelting furnace 1, heating coil 2nd, thermocouple 3, support 5, running channel 6, holding furnace 7, heating coil 8, support 9, crystallizer 12, high-voltage pulse power source 13, Compensating wire 14, heat-insulated asbestos 15, electrode 16, thermocouple 17, support 5 is connected with support 9, for supporting whole device； Smelting furnace 1 is located at tiltable on support 5, and the side wall of smelting furnace 1 is provided with heating coil 2, and thermocouple 3 hangs on the top of smelting furnace 1 Stretch into inside smelting furnace 1；Holding furnace 7 is located on support 9, and the side wall of holding furnace 7 is provided with heating coil 8, the top of holding furnace 7 Portion is coated with heat-insulated asbestos 15；Crystallizer 12 is placed in holding furnace 7, and running channel 6 passes through heat-insulated asbestos 15 to be directed at crystallizer 12；Electrode 16 and thermocouple 17 stretch into inside crystallizer 12 through heat-insulated asbestos 15；High-voltage pulse power source 13 passes through compensating wire 14 and electricity Pole 16 is connected, as shown in Figure 1.

Crystallizer 12 hollow described in the present embodiment, the side wall lower ends of crystallizer 12 are provided with crystallizer coolant outlet 10, knot Brilliant device cooling water inlet 11, can control metal bath rate of cooling by being incubated, heating or be passed through the means such as cooling water.

High-voltage pulse power source 13 waveform described in the present embodiment is multigroup sawtooth-shaped pulse ripple, and voltage is 500v, and frequency is 45hz, pulsewidth is 10 μ s.

Coagulated with pulse current refinement hypereutectic high chromium cast iron (1337 DEG C of liquidus temperature, 1276 DEG C of solidus temperature) below Gu as a example tissue, and combining accompanying drawing being further described using process to device of the present invention:

As shown in figure 1, being heated using heating coil 2 in smelting furnace 1, melting out hypereutectic high chromium cast iron melt, using thermoelectricity The temperature of even 3 measurement hypereutectic high chromium cast iron melts, controls 1400 DEG C of pouring temperature；Support 5 is tilted, makes hypereutectic high-chromium Molten cast iron injects crystallizer 12 along running channel 6；Cast start before, first with holding furnace 7 heating coil 8 to crystallizer 12, Electrode 16 and thermocouple 17 are preheated, and make thermocouple 17 measured temperature synchronous with thermocouple 3 measured temperature；Treated common After brilliant rich chromium cast iron melt cast enters crystallizer 12, the temperature surveyed according to thermocouple 17, adjust heating coil 8 power, Insulation 3min；It is then shut off heating coil 8, in cooling procedure, electrode 16 and thermocouple 17 are extend into hypereutectic height In chrome cast iron melt, open high-voltage pulse power source 13, pulse current, pulsed current annealing are applied to hypereutectic high chromium cast iron melt Time 6.5min；After pulsed current annealing terminates, electrode 16 and thermocouple 17 are moved up and withdraw from hypereutectic high chromium cast iron Melt, cools to room temperature with the furnace.

The hypereutectic high chromium cast iron solidified structure that the present embodiment obtains is as shown in figure 3, organize (as shown in Figure 2) with before processing Contrast, the solidified structure crystal grain after process is tiny, even tissue.

Embodiment 2

The device of pulse current thinning metal solidification texture described in the present embodiment, this device includes smelting furnace 1, heating coil 2nd, thermocouple 3, support 5, running channel 6, holding furnace 7, heating coil 8, support 9, crystallizer 12, high-voltage pulse power source 13, Compensating wire 14, heat-insulated asbestos 15, electrode 16, thermocouple 17, support 5 is connected with support 9, for supporting whole device； Smelting furnace 1 is located at tiltable on support 5, and the side wall of smelting furnace 1 is provided with heating coil 2, and thermocouple 3 hangs on the top of smelting furnace 1 Stretch into inside smelting furnace 1；Holding furnace 7 is located on support 9, and the side wall of holding furnace 7 is provided with heating coil 8, the top of holding furnace 7 Portion is coated with heat-insulated asbestos 15；Crystallizer 12 is placed in holding furnace 7, and running channel 6 passes through heat-insulated asbestos 15 to be directed at crystallizer 12；Electrode 16 and thermocouple 17 stretch into inside crystallizer 12 through heat-insulated asbestos 15；High-voltage pulse power source 13 passes through compensating wire 14 and electricity Pole 16 is connected, as shown in Figure 1.

Crystallizer 12 hollow described in the present embodiment, the side wall lower ends of crystallizer 12 are provided with crystallizer coolant outlet 10, knot Brilliant device cooling water inlet 11, can control metal bath rate of cooling by being incubated, heating or be passed through the means such as cooling water.

Electrode 16 described in the present embodiment and thermocouple 17 stretch into crystallizer 12 through heat-insulated asbestos 15, can move up and down； And can be preheated to crystallizer 12, electrode 16 and thermocouple 17 by the heating coil 8 of holding furnace 7.

High-voltage pulse power source 13 waveform described in the present embodiment is multigroup sawtooth-shaped pulse ripple, and voltage is 1000v, and frequency is 45hz, pulsewidth is 100 μ s.

Coagulated with pulse current refinement hypereutectic high chromium cast iron (1337 DEG C of liquidus temperature, 1276 DEG C of solidus temperature) below Gu as a example tissue, and combining accompanying drawing being further described using process to device of the present invention.

As shown in figure 1, being heated using heating coil 2 in smelting furnace 1, melting out hypereutectic high chromium cast iron melt, using thermoelectricity The temperature of even 3 measurement hypereutectic high chromium cast iron melts, controls 1400 DEG C of pouring temperature；Hypereutectic high chromium cast iron melt edge is poured Road 6 injects crystallizer 12；Cast start before, first with holding furnace 7 heating coil 8 to crystallizer 12, electrode 16 and thermoelectricity Even 17 are preheated, and make thermocouple 17 measured temperature synchronous with thermocouple 3 measured temperature；Treat that hypereutectic high chromium cast iron melts After body is poured into crystallizer 12, the temperature surveyed according to thermocouple 17, adjust heating coil 8 power, be incubated 3min；Then Close heating coil 8, in cooling procedure, electrode 16 and thermocouple 17 extend in hypereutectic high chromium cast iron melt, Open high-voltage pulse power source 13, pulse current, pulsed current annealing time 3min are applied to hypereutectic high chromium cast iron melt；Pulse After current processing terminates, electrode 16 and thermocouple 17 are moved up and withdraws from hypereutectic high chromium cast iron melt, cool to the furnace Room temperature.

The hypereutectic high chromium cast iron solidified structure that the present embodiment obtains is as shown in figure 4, organize (as shown in Figure 2) with before processing Contrast, the solidified structure crystal grain after process is tiny, even tissue.

Embodiment 3

The device of pulse current thinning metal solidification texture described in the present embodiment, this device includes smelting furnace 1, heating coil 2nd, thermocouple 3, support 5, running channel 6, holding furnace 7, heating coil 8, support 9, crystallizer 12, high-voltage pulse power source 13, Compensating wire 14, heat-insulated asbestos 15, electrode 16, thermocouple 17, support 5 is connected with support 9, for supporting whole device； Smelting furnace 1 is located at tiltable on support 5, and the side wall of smelting furnace 1 is provided with heating coil 2, and thermocouple 3 hangs on the top of smelting furnace 1 Stretch into inside smelting furnace 1；Holding furnace 7 is located on support 9, and the side wall of holding furnace 7 is provided with heating coil 8, the top of holding furnace 7 Portion is coated with heat-insulated asbestos 15；Crystallizer 12 is placed in holding furnace 7, and running channel 6 passes through heat-insulated asbestos 15 to be directed at crystallizer 12；Electrode 16 and thermocouple 17 stretch into inside crystallizer 12 through heat-insulated asbestos 15；High-voltage pulse power source 13 passes through compensating wire 14 and electricity Pole 16 is connected, as shown in Figure 1.

Crystallizer 12 hollow described in the present embodiment, the side wall lower ends of crystallizer 12 are provided with crystallizer coolant outlet 10, knot Brilliant device cooling water inlet 11, can control metal bath rate of cooling by being incubated, heating or be passed through the means such as cooling water.

High-voltage pulse power source 13 waveform described in the present embodiment is multigroup sawtooth-shaped pulse ripple, and voltage is 1200v, and frequency is 45hz, pulsewidth is 10 μ s.

Coagulated with pulse current refinement hypereutectic high chromium cast iron (1337 DEG C of liquidus temperature, 1276 DEG C of solidus temperature) below Gu as a example tissue, and combining accompanying drawing being further described using process to device of the present invention:

As shown in figure 1, being heated using heating coil 2 in smelting furnace 1, melting out hypereutectic high chromium cast iron melt, using thermoelectricity The temperature of even 3 measurement hypereutectic high chromium cast irons, controls 1400 DEG C of pouring temperature；Support 5 is tilted, makes hypereutectic high chromium cast iron Melt injects crystallizer 12 along running channel 6；Cast start before, first with holding furnace 7 heating coil 8 to crystallizer 12, electrode 16 and thermocouple 17 preheated, make thermocouple 17 measured temperature and thermocouple 3 measured temperature synchronous；Treat hypereutectic height After chrome cast iron melt cast enters crystallizer 12, the temperature surveyed according to thermocouple 17, adjust heating coil 8 power, insulation 3min；It is then shut off heating coil 8, in cooling procedure, electrode 16 and thermocouple 17 are extend into hypereutectic high-chromium casting In fusant, open high-voltage pulse power source 13, pulse current, pulsed current annealing time are applied to hypereutectic high chromium cast iron melt 14min；After pulsed current annealing terminates, electrode 16 and thermocouple 17 are moved up and withdraw from hypereutectic high chromium cast iron melt, It is passed through cooling water to crystallizer cooling water inlet 11 simultaneously, be cooled to room temperature.

The hypereutectic high chromium cast iron solidified structure that the present embodiment obtains is as shown in figure 5, organize (as shown in Figure 2) with before processing Contrast, the solidified structure crystal grain after process is tiny, even tissue.

Embodiment 4

The device of pulse current thinning metal solidification texture described in the present embodiment, this device includes smelting furnace 1, heating coil 2nd, thermocouple 3, support 5, running channel 6, holding furnace 7, heating coil 8, support 9, crystallizer 12, high-voltage pulse power source 13, Compensating wire 14, heat-insulated asbestos 15, electrode 16, thermocouple 17, support 5 is connected with support 9, for supporting whole device； Smelting furnace 1 is located at tiltable on support 5, and the side wall of smelting furnace 1 is provided with heating coil 2, and thermocouple 3 hangs on the top of smelting furnace 1 Stretch into inside smelting furnace 1；Holding furnace 7 is located on support 9, and the side wall of holding furnace 7 is provided with heating coil 8, the top of holding furnace 7 Portion is coated with heat-insulated asbestos 15；Crystallizer 12 is placed in holding furnace 7, and running channel 6 passes through heat-insulated asbestos 15 to be directed at crystallizer 12；Electrode 16 and thermocouple 17 stretch into inside crystallizer 12 through heat-insulated asbestos 15；High-voltage pulse power source 13 passes through compensating wire 14 and electricity Pole 16 is connected, as shown in Figure 1.

Crystallizer 12 hollow described in the present embodiment, the side wall lower ends of crystallizer 12 are provided with crystallizer coolant outlet 10, knot Brilliant device cooling water inlet 11, can control metal bath rate of cooling by being incubated, heating or be passed through the means such as cooling water.

High-voltage pulse power source 13 waveform described in the present embodiment is multigroup sawtooth-shaped pulse ripple, and voltage is 1200v, and frequency is 30hz, pulsewidth is 30 μ s.

Below al-25%si alloy (778 DEG C of liquidus temperature, 577 DEG C of solidus temperature) solidification group is refined with pulse current It is woven to example, and combine accompanying drawing being further described using process to device of the present invention:

As shown in figure 1, being heated using heating coil 2 in smelting furnace 1, melting out al-25%si alloy melt, using thermocouple The temperature of 3 measurement al-25%si alloy melts, controls 790 DEG C of pouring temperature；Support 5 is tilted, so that al-25%si alloy is melted Body injects crystallizer 12 along running channel 6；Cast start before, first with holding furnace 7 heating coil 8 to crystallizer 12, electrode 16 And thermocouple 17 is preheated, make thermocouple 17 measured temperature synchronous with thermocouple 3 measured temperature；Treat that al-25%si closes After golden melt cast enters crystallizer 12, the temperature surveyed according to thermocouple 17, adjust heating coil 8 power, be incubated 2h；So Adjust heating coil 8 power afterwards, control al-25%si alloy rate of cooling, in cooling procedure, by electrode 16 and thermocouple 17 extend in al-25%si alloy melt, open high-voltage pulse power source 13, and al-25%si alloy melt is applied with pulse electricity Stream, pulsed current annealing time 3min；After pulsed current annealing terminates, electrode 16 and thermocouple 17 are moved up and withdraw from Al-25%si alloy melt, is passed through cooling water to crystallizer cooling water inlet 11 simultaneously, is cooled to room temperature.

Embodiment 5

The device of pulse current thinning metal solidification texture described in the present embodiment, this device includes smelting furnace 1, heating coil 2nd, thermocouple 3, support 5, running channel 6, holding furnace 7, heating coil 8, support 9, crystallizer 12, high-voltage pulse power source 13, Compensating wire 14, heat-insulated asbestos 15, electrode 16, thermocouple 17, support 5 is connected with support 9, for supporting whole device； Smelting furnace 1 is located at tiltable on support 5, and the side wall of smelting furnace 1 is provided with heating coil 2, and thermocouple 3 hangs on the top of smelting furnace 1 Stretch into inside smelting furnace 1；Holding furnace 7 is located on support 9, and the side wall of holding furnace 7 is provided with heating coil 8, the top of holding furnace 7 Portion is coated with heat-insulated asbestos 15；Crystallizer 12 is placed in holding furnace 7, and running channel 6 passes through heat-insulated asbestos 15 to be directed at crystallizer 12；Electrode 16 and thermocouple 17 stretch into inside crystallizer 12 through heat-insulated asbestos 15；High-voltage pulse power source 13 passes through compensating wire 14 and electricity Pole 16 is connected, as shown in Figure 1.

Crystallizer 12 hollow described in the present embodiment, the side wall lower ends of crystallizer 12 are provided with crystallizer coolant outlet 10, knot Brilliant device cooling water inlet 11, can control metal bath rate of cooling by being incubated, heating or be passed through the means such as cooling water.

High-voltage pulse power source 13 waveform described in the present embodiment is multigroup sawtooth-shaped pulse ripple, and voltage is 1400v, and frequency is 30hz, pulsewidth is 50 μ s.

Below with pulse current refinement cu-10%sn alloy (1021 DEG C of liquidus temperature, 830 DEG C of solidus temperature) solidification As a example tissue, and combine accompanying drawing being further described using process to device of the present invention:

As shown in figure 1, being heated using heating coil 2 in smelting furnace 1, melting out cu-10%sn alloy melt, using thermocouple The temperature of 3 measurement cu-10%sn alloy melts, controls 1180 DEG C of pouring temperature；Support 5 is tilted, so that cu-10%sn alloy is melted Body injects crystallizer 12 along running channel 6；Cast start before, first with holding furnace 7 heating coil 8 to crystallizer 12, electrode 16 And thermocouple 17 is preheated, make thermocouple 17 measured temperature synchronous with thermocouple 3 measured temperature；Treat that cu-10%sn closes After golden melt cast enters crystallizer 12, the temperature surveyed according to thermocouple 17, adjust heating coil 8 power, insulation 30min；Then adjust heating coil 8 Power Control cu-10%sn alloy melt rate of cooling, in cooling procedure, by electrode 16 and thermocouple 17 extend in cu-10%sn alloy melt, open high-voltage pulse power source 13, to cu-10%sn alloy melt Apply pulse current, pulsed current annealing time 3min；After pulsed current annealing terminates, by electrode 16 and thermocouple 17 upwards Cu-10%sn alloy melt is withdrawn from movement, is passed through cooling water to crystallizer cooling water inlet 11 simultaneously, is cooled to room temperature.

Claims (1)

1. a kind of device of pulse current thinning metal solidification texture it is characterised in that: this device includes smelting furnace (1), heater wire Circle (2), thermocouple (3), support (5), running channel (6), holding furnace (7), heating coil (8), support (9), crystallizer (12), high-voltage pulse power source (13), compensating wire (14), heat-insulated asbestos (15), electrode (16), thermocouple (17), support (5) it is connected with support (9), for supporting whole device；Smelting furnace (1) is located on support (5), and the side wall of smelting furnace (1) is provided with Heating coil (2), smelting furnace (1) inside is stretched at the top that thermocouple (3) hangs on smelting furnace (1)；Holding furnace (7) is located at support (9), on, the side wall of holding furnace (7) is provided with heating coil (8), and the top of holding furnace (7) is coated with heat-insulated asbestos (15)；Knot Brilliant device (12) is placed in holding furnace (7), and running channel (6) passes through heat-insulated asbestos (15) be aligned crystallizer (12)；Electrode (16) and thermoelectricity It is internal that even (17) stretch into crystallizer (12) through heat-insulated asbestos (15)；High-voltage pulse power source (13) pass through compensating wire (14) and Electrode (16) is connected；Described crystallizer (12) hollow, the side wall lower ends of crystallizer (12) be provided with crystallizer coolant outlet (10), Crystallizer cooling water inlet (11)；Described high-voltage pulse power source (13) waveform is multigroup sawtooth-shaped pulse ripple；Smelting furnace (1) is placed in and props up The upper tiltable of frame (5)；Described electrode (16) and thermocouple (17) stretch into crystallizer (12) through heat-insulated asbestos (15), can go up Lower movement.