CN101024240A - Method and apparatus for small metal semi-solid slurry in solidification zone - Google Patents

Abstract

The invention discloses small metal semisolid slurry manufacturing method and device in freezing range. It is based on routine electromagnetic stirring method, symmetrically distributed the cooling and heating areas along the crucible wall inner circle. The cooling area is used to derive heat quantity from the fused mass to generate nascent dendrite. The heating area is used to induct heat quantity to control fused mass crystallization latent heat releasing quantity. Thus the small metal fused mass crystallization latent heat releasing course can be controlled. Further its solid phase ratio can be controlled.

Description

A kind of small metal semi-solid slurry in solidification zone preparation method and device

Technical field

The present invention relates to a kind of electromagnetic agitation preparation method and device of small metal semi-solid slurry in solidification zone.

Background technology

According to document " Flemings M.Behavior of metal alloys in the semisolid state; MetallTrans; 1991; 22A:957-981 " and " Mao Weimin. Semi-Solid Metals Forming technology; Beijing: China Machine Press; 2004 " report, stir the comparatively desirable method for preparing semi solid slurry from high-temperature liquid state by cooling, mainly contain electromagnetic stirring method.The basic thought of electromagnetic stirring method be at the solid-liquid two-phase region in metal bath cooled and solidified process, by means of electromagnetic agitation motion, smash primary dendrite, form nascent solid phase particles and be suspended in semi solid slurry in the liquid phase.It is big more that metal bath is in the freezing range of solid-liquid two-phase region, the easy more control of the solid rate of semi solid slurry, so electromagnetic stirring method is suitable for the preparation of the semi solid slurry of the big melt in freezing range.For the melt of freezing range little (less than 20 ℃), existing electromagnetic stirring method is difficult to prepare the semi solid slurry that solid rate can comparatively accurately be controlled.And the solid rate of semi solid slurry is machined to semisolid and closes importantly, and the semi solid slurry that has only solid rate comparatively accurately to control could guarantee carrying out smoothly of semi-solid processing.

Summary of the invention

Technical problem to be solved by this invention is, overcome the deficiency that existing electromagnetic stirring method " can't accurately be controlled the small metal semi-solid slurry in solidification zone solid rate ", a kind of preparation method and the device that can comparatively accurately control the semi solid slurry of small metal semi-solid slurry in solidification zone solid rate is provided.

The technical solution adopted for the present invention to solve the technical problems is:

On conventional electromagnetic stirring method basis, in sidewall of crucible along the circumference symmetrical distribution cooling zone and the thermal treatment zone, by temperature below the metal bath solidus temperature 15 ℃ from melt, derive heat with interior cooling zone, form primary dendrite, the circumferential movement of utilizing electromagnetic mixing apparatus to produce, smash the primary dendrite of formation, by temperature more than the melt liquidus temperature 15 ℃ in melt, import heat with the interior thermal treatment zone, the burst size of control melt crystallization latent heat, and then the solid rate of control semi solid slurry, dispose procedure with the little metal bath crystallization in freezing range latent heat is controlled at the freezing range in addition than carrying out in the large-temperature range like this, by the metal bath crystallization latent heat dispose procedure that control has been amplified, realize the control comparatively accurately of small metal semi-solid slurry in solidification zone solid rate.

The preparation facilities of the little metal bath semi solid slurry in freezing range comprises: electromagnetic mixing apparatus, graphite crucible, loam cake, obstruction, outer cover, Ar tracheae and thermocouple.

Three pairs of electromagnetic poles of electromagnetic mixing apparatus are to being distributed on around the graphite crucible, and the distance between the graphite crucible outer wall is 5mm, and electromagnetic pole adds outer cover to the outside;

Along even 3 the preheating heating tubes that distribute of circumference, be used for the preheating graphite crucible in the graphite crucible wall; With the graphite crucible radius by a preheating heating tube in the graphite crucible wall is benchmark, be the intersection point place of 105 ° radius and the same circumference of preheating heating tube becoming α to be 75 ° with the benchmark radius along clockwise direction with β respectively, settle heating tube, form the thermal treatment zone, and be that 75 ° and β are the intersection point place of 105 ° radius and the same circumference of preheating heating tube become α in the counterclockwise direction with the benchmark radius, settle cooling tube, form the cooling zone, preheating heating tube, heating tube and cooling tube are connected with the cooling fluid feed system with external power source respectively; Thermocouple is that the benchmark symmetry is inserted the graphite crucible wall from the graphite crucible sidewall with the graphite crucible center respectively, be positioned on the same horizontal plane, this horizontal plane gets final product below graphite crucible melt upper surface, the line of thermocouple is by cooling tube line center and heating tube line center in this horizontal plane, and between the head of thermocouple and the graphite crucible wall inner surface is 2mm apart from a;

The Ar tracheae by on the hole that covers insert graphite crucible, stop up and be positioned at the graphite crucible bottom, electromagnetic mixing apparatus and graphite crucible are separately fixed on the support.

The step of preparation process of small metal semi-solid slurry in solidification zone is as follows:

Step 1, the little metal bath in preparation freezing range, its temperature remains on metal bath liquidus temperature t _LiquidMore than 50 ℃;

Step 2 is poured above-mentioned metal bath into and is preheated to metal bath solidus temperature t _GuGraphite crucible in, graphite crucible is realized preheating covering loam cake by the preheating heating tube in its wall, connects Ar gas with anti-oxidation;

Step 3 is closed the power supply of preheating heating tube, starts electromagnetic mixing apparatus, and metal bath is stirred;

Step 4, the power supply of opening and regulate heating tube heats the thermal treatment zone, and the cooling water of opening and regulate cooling tube simultaneously cools off the cooling zone, with the electric thermo-couple temperature t of cooling zone _ColdBe controlled at metal bath solidus temperature t _GuBelow 15 ℃ with interior i.e. (t _Gu-t _Cold)＜15 ℃ are with the electric thermo-couple temperature t of the thermal treatment zone _HeatBe controlled at melt liquidus temperature t _LiquidMore than 15 ℃ with interior i.e. (t _Heat-t _Liquid)＜15 ℃, and keep (t _Gu-t _Cold)＞(t _Heat-t _Liquid), make the crystallization latent heat of metal bath to discharge gradually, constantly increase the solid rate of semi solid slurry;

Step 5 behind the stable stirring 15min, is regulated the power supply of heating tube, and temperature is transferred to (t _Gu-t _Cold)=(t _Heat-t _Liquid), suppress the further release of the crystallization latent heat of metal bath, obtain the comparatively stable semi solid slurry of solid rate.

The invention has the beneficial effects as follows: the present invention is controlled at the freezing range in addition than carrying out in the large-temperature range with the dispose procedure of the little metal bath crystallization in freezing range latent heat, the metal bath crystallization latent heat dispose procedure that has amplified by control, realize the control comparatively accurately of small metal semi-solid slurry in solidification zone solid rate, solved the problem that existing electromagnetic stirring method " can't accurately be controlled the small metal semi-solid slurry in solidification zone solid rate ".

Description of drawings

Fig. 1 prepares the front view of small metal semi-solid slurry in solidification zone device for the inventive method.

Graphite crucible 2 among the figure, preheating heating tube 3, and cooling tube 4, heating tube 5, small metal semi-solid slurry in solidification zone 6 stops up 7, outer cover 8, loam cake 9, Ar tracheae 10, thermocouple 11, support 12.

Fig. 2 prepares the A-A view of small metal semi-solid slurry in solidification zone device for the inventive method.

The electromagnetic pole of electromagnetic mixing apparatus is to 1 among the figure.

Fig. 3 is the microstructure of 40% aluminium semi solid slurry for the solid rate of the inventive method preparation.

The specific embodiment

In conjunction with the accompanying drawings the present invention being prepared the small metal semi-solid slurry in solidification zone device specifies as follows:

This device comprises: electromagnetic mixing apparatus, graphite crucible 2, loam cake 9, obstruction 7, outer cover 8, Ar tracheae 10 and thermocouple 11.

Three pairs of electromagnetic poles of electromagnetic mixing apparatus are distributed on around the graphite crucible 21, and the distance between graphite crucible 2 outer walls is 5mm, and electromagnetic pole adds outer cover 8 to 1 outside; Ar tracheae 10 inserts graphite crucible 2 by the hole on the loam cake 9, stops up 7 and is positioned at graphite crucible 2 bottoms, and electromagnetic mixing apparatus and graphite crucible 2 are separately fixed on the support 12.

Along even 3 the preheating heating tubes 3 that distribute of circumference, be used for preheating graphite crucible 2 in graphite crucible 2 walls; With the graphite crucible radius by a preheating heating tube 3 in graphite crucible 2 walls is benchmark, be the intersection point place of 105 ° radius and preheating heating tube 3 same circumference becoming α to be 75 ° with the benchmark radius along clockwise direction with β respectively, settle heating tube 5, form the thermal treatment zone, and be that 75 ° and β are the intersection point place of 105 ° radius and preheating heating tube 3 same circumference become α in the counterclockwise direction with the benchmark radius, settle cooling tube 4, form the cooling zone, preheating heating tube 3, heating tube 5 and cooling tube 4 are connected with the cooling fluid feed system with external power source respectively; Thermocouple 11 is that the benchmark symmetry is inserted the graphite crucible wall from the graphite crucible sidewall with the graphite crucible center respectively, be positioned on the same horizontal plane, this horizontal plane is at the following 10mm of graphite crucible metal bath upper surface place, the line of thermocouple 11 is by cooling tube 4 line centers and heating tube 5 line centers in this horizontal plane, and between the head of thermocouple 11 and the graphite crucible wall inner surface is 2mm apart from a.

Embodiment one

Power at electromagnetic mixing apparatus is under the condition of 10kW, and the present invention prepares the concrete steps of aluminium semi solid slurry method:

Step 1, preparation fine aluminium liquid, temperature is controlled at aluminium liquidus temperature t _Liquid+ 50=708 ℃;

Step 2, pouring above-mentioned aluminium liquid into preheat temperature is aluminium solidus temperature t _GuIn=658 ℃ the graphite crucible 2, graphite crucible 2 is realized preheatings by the preheating heating tube in its wall 3, cover loam cake 9 after, connect Ar gas with anti-oxidation;

Step 3 is closed the power supply of preheating heating tube 3, starts electromagnetic mixing apparatus, and aluminum melt is stirred;

Step 4, the power supply of opening and regulate heating tube 5 heats the thermal treatment zone, and the cooling water of opening and regulate cooling tube 4 simultaneously cools off the cooling zone, the temperature t of the thermocouple 11 of the thermal treatment zone _HeatBe controlled at aluminium liquidus temperature t _Liquid+ 12=670 ℃, the temperature t of the thermocouple 11 of cooling zone _ColdBe controlled at aluminium solidus temperature t _Gu-15=643 ℃, make the crystallization latent heat of aluminum melt to discharge gradually, constantly increase the solid rate of semi solid slurry;

Step 5, stable stir 15min after, regulate the power supply of heating tube 5, with the temperature t of the thermocouple 11 of the thermal treatment zone _HeatBe controlled at aluminium liquidus temperature t _Liquid+ 15=673 ℃, regulate the cooling water of cooling tube 4, with the temperature t of the thermocouple 11 of cooling zone _ColdBe controlled at aluminium solidus temperature t _Gu-15=643 ℃, suppress the further release of the crystallization latent heat of aluminum melt, obtain solid rate and be stabilized in 40% aluminium semi solid slurry 6.

Embodiment two

With the difference of embodiment one be: the temperature t of the thermocouple 11 of the thermal treatment zone _HeatBe controlled at 666 ℃, the temperature t of the thermocouple 11 of cooling zone _ColdBe controlled at 648 ℃, stable stir 15min after, regulate the power supply of heating tube 5, with the temperature t of the thermocouple 11 of the thermal treatment zone _HeatBe controlled at 668 ℃, regulate the cooling water of cooling tube 4, with the temperature t of the thermocouple 11 of cooling zone _ColdBe controlled at 648 ℃, obtain solid rate and be stabilized in 30% aluminium semi solid slurry 6.

Embodiment three

With the difference of embodiment one be: the temperature control t of the thermocouple 11 of the thermal treatment zone _HeatAt 1090 ℃, the temperature t of the thermocouple 11 of cooling zone _ColdBe controlled at 1075 ℃, stable stir 15min after, regulate the power supply of heating tube 5, with the temperature t of the thermocouple 11 of the thermal treatment zone _HeatBe controlled at 1095 ℃, regulate the cooling water of cooling tube 4, with the temperature t of the thermocouple 11 of cooling zone _ColdBe controlled at 1075 ℃, obtain solid rate and be stabilized in 54% copper semi solid slurry 6.

Accompanying drawing 3 is the microstructure of 40% aluminium semi solid slurry for the solid rate of the inventive method preparation, and white portion spherical in shape or elliposoidal is nascent solid phase particles among the figure, and as seen, the inventive method can be used for preparing small metal semi-solid slurry in solidification zone.

Claims (2)

1. a small metal semi-solid slurry in solidification zone preparation method adopts electromagnetic agitation method to carry out the preparation of small metal semi-solid slurry in solidification zone, it is characterized in that concrete steps are as follows:

Step 1, the little metal bath in preparation freezing range, its temperature remains on metal bath liquidus temperature t _LiquidMore than 50 ℃;

Step 2 is poured above-mentioned metal bath into and is preheated to metal bath solidus temperature t _GuGraphite crucible in, graphite crucible is realized preheating covering loam cake by the preheating heating tube in its wall, connects Ar gas with anti-oxidation;

Step 3 is closed the power supply of preheating heating tube, starts electromagnetic mixing apparatus, and metal bath is stirred;

Step 4, the power supply of opening and regulate heating tube heats the thermal treatment zone, and the cooling water of opening and regulate cooling tube simultaneously cools off the cooling zone, with the electric thermo-couple temperature t of cooling zone _ColdBe controlled at metal bath solidus temperature t _GuBelow 15 ℃ with interior i.e. (t _Gu-t _Cold)＜15 ℃ are with the electric thermo-couple temperature t of the thermal treatment zone _HeatBe controlled at melt liquidus temperature t _LiquidMore than 15 ℃ with interior i.e. (t _Heat-t _Liquid)＜15 ℃, and keep (t _Gu-t _Cold)＞(t _Heat-t _Liquid), make the crystallization latent heat of metal bath to discharge gradually, constantly increase the solid rate of semi solid slurry;

Step 5 behind the stable stirring 15min, is regulated the power supply of heating tube, and temperature is transferred to (t _Gu-t _Cold)=(t _Heat-t _Liquid), suppress the further release of the crystallization latent heat of metal bath, obtain the comparatively stable semi solid slurry of solid rate.

2. small metal semi-solid slurry in solidification zone preparation facilities, this device comprises: electromagnetic mixing apparatus, graphite crucible (2), loam cake (9), stop up (7), outer cover (8), Ar tracheae (10) and thermocouple (11); Three pairs of electromagnetic poles of electromagnetic mixing apparatus are distributed on graphite crucible (2) on every side to (1), and the distance between graphite crucible (2) outer wall is 5mm, and electromagnetic pole adds outer cover (8) to (1) outside; Ar tracheae (10) inserts graphite crucible (2) by the hole on the loam cake (9), stops up (7) and is positioned at graphite crucible (2) bottom, and electromagnetic mixing apparatus and graphite crucible (2) are separately fixed on the support (12); It is characterized in that:

Along even 3 the preheating heating tubes (3) that distribute of circumference, be used for preheating graphite crucible (2) in graphite crucible (2) wall; With the graphite crucible radius by the preheating heating tube (3) in graphite crucible (2) wall is benchmark, be the intersection point place of 105 ° radius and the same circumference of preheating heating tube (3) becoming α to be 75 ° with the benchmark radius along clockwise direction with β respectively, settle heating tube (5), form the thermal treatment zone, and be that 75 ° and β are the intersection point place of 105 ° radius and the same circumference of preheating heating tube (3) become α in the counterclockwise direction with the benchmark radius, settle cooling tube (4), form the cooling zone, preheating heating tube (3), heating tube (5) is connected with the cooling fluid feed system with external power source respectively with cooling tube (4); Thermocouple (11) is that the benchmark symmetry is inserted the graphite crucible wall from the graphite crucible sidewall with the graphite crucible center respectively, be positioned on the same horizontal plane, this horizontal plane is below graphite crucible melt upper surface, the line of thermocouple (11) is by cooling tube (4) line center and heating tube (5) line center in this horizontal plane, and between the head of thermocouple (11) and the graphite crucible wall inner surface is 2mm apart from a.

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