EP0169765A1 - Cooled casing for a crucible with high-frequency electromagnetic induction melting - Google Patents

Cooled casing for a crucible with high-frequency electromagnetic induction melting Download PDF

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Publication number
EP0169765A1
EP0169765A1 EP85401286A EP85401286A EP0169765A1 EP 0169765 A1 EP0169765 A1 EP 0169765A1 EP 85401286 A EP85401286 A EP 85401286A EP 85401286 A EP85401286 A EP 85401286A EP 0169765 A1 EP0169765 A1 EP 0169765A1
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EP
European Patent Office
Prior art keywords
cage
cold
crucible
electricity
segment
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EP85401286A
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German (de)
French (fr)
Inventor
Roger Boen
Daniel Delage
Jean Reboux
Antoine Jouan
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Commissariat a lEnergie Atomique et aux Energies Alternatives CEA
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Commissariat a lEnergie Atomique CEA
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/22Furnaces without an endless core
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/36Coil arrangements
    • H05B6/42Cooling of coils

Definitions

  • cold cages or “cold crucibles” used in physico-chemical applications or special metallurgy, in particular for the melting by induction at high or medium frequency of metals or special alloys, or insulating materials, refractory or not, often occurring at high temperature.
  • Most of the cold crucibles described comprise a greater or lesser number of segments, either straight or arranged in a pin.
  • these segments are made of copper, which is perfectly suitable if the melting operation is carried out without direct contact with the crucible in a protective atmosphere, or if the copper in the crucible is protected from the liquid bath by a protective layer of solid slag or again by a natural shell of the Liquid material (insulating under normal conditions) melted by induction at appropriate frequency and of which a thin film is solidified in contact with the cold crucible.
  • FIG. 1 shows in perspective-elevation a cold crucible whose cold cage 1 is composed of a number of segments such as 2 in copper.
  • This cage 1 is cooled by a circulation of water schematically represented by inlets 3 and outlets 4 putting the interior of each segment 2 into communication with the exterior.
  • FIG. 1 also shows the inductor winding 5 which is responsible for carrying out the melting of the material 6 by magnetic induction at high frequency.
  • This material 6 enclosed in the crucible 1, internally sealed by a solidified crust 7, thus constitutes what the secondary of a transformer whose Inductor 5 is the primary. It is under the influence of high frequency secondary currents that develop in the material 6 that it heats up and then achieves the desired fusion.
  • inductive plasma torches are in fact increasingly used for the preparation of ultra pure metals, alloys or noble materials: silica, quartz, alumina, silicon, titanium, etc.
  • the present invention specifically relates to a cold cage for melting crucible by electromagnetic induction which overcomes the prior drawbacks of the prior art while con serving The well known advantages of fusion or physico-chemical treatment in a cold crucible.
  • This cold cage for an electric induction melting crucible which in a known manner comprises a series of hollow segments traversed by cooling water, surrounded by a high or medium frequency inductor winding, and in which are confined the products to be melted.
  • the structure of the cold cage which is the subject of the invention consists essentially in making the crucible segments, no longer solely of copper, but of a composite structure comprising at least two metals closely applied one against the other, one good conductor of electricity, therefore with low Joule losses, the other more electrically resistive but characterized by greater resistance to Corrosion: said composite or sandwich structure is applied either to the whole of the cage, or to the less to the inner wall thereof more particularly exposed to the effects of corrosion or physicochemical or even hydrodynamic aggression in the case of plasmas.
  • the essential arrangement of the structure according to the invention therefore consists in choosing The respective thicknesses of anti-corrosion metal and good conductive metal so that the eddy currents induced in the cage under the influence of the primary inductor winding and which we know that the depth to which they are located depends on the frequency of the Induction, for the most part, develops in a layer which is a good conductor of electricity so as to minimize the losses due to the toy effect of the system.
  • the metal playing the anti-corrosion role of the crucible and present on the face of the segment turned towards the inside of the crucible consists of a stainless steel well known for its resistance in aggressive medium. But it is also known that, if the thickness of the stainless steel is equal to or greater than the depth of penetration of the currents at the working frequency in this metal, that is to say about 5 mm at 10 kHz or 5 / 10th of a mm at 1 MHz, the Joule losses developed in the external stainless steel layer are six to seven times greater than those observed in the wall with identical dimensions which would be made of copper. This is very detrimental to obtaining the acceptable electrical efficiency of the treatment carried out in such a crucible and the invention makes it possible to avoid this pitfall.
  • the practical arrangements of the cage according to the invention therefore make it possible, by a judicious choice of the thicknesses of layers of copper and of stainless steel present and of the induction frequencies, to produce a cold crucible having both excellent resistance to corrosion and losses Compatible with acceptable electrical efficiency.
  • Figures 2a and 2b (sectional view along the horizontal plane AA of Figure 2a) there is shown the possible constitution according to the invention of a segment 2 of a cold cage for crucible melting by electrical induction.
  • the internal wall 8 of the crucible segments is made of copper of suitable thickness, generally located between 1 and 3 mm.
  • the external wall 9 of stainless steel is made in the form, for example, of a regular and uniform coating of stainless steel, the thickness of which is notably less than the depth of penetration of the currents in the stainless steel. For example, a coating of 20 to 40 ⁇ m above 1 MHz will be applied, 50 to 100 ⁇ m between 500 kHz and 1 MHz. Calculation and experience show that the crucibles produced in accordance with this provision resist corrosion well while presenting JouLe losses only slightly higher than those of a cold copper crucible.
  • the coating 9 made of stainless steel is carried out by applying the well-known physicochemical processes such as, for example, "sputtering" when deposits of thin thickness, less than 200 ⁇ m for example are involved. For widely greater thicknesses and in particular from a few tenths of a millimeter to a few mm, the methods also well known for "shooping" can be applied.
  • FIG. 3 also represents a bimetallic structure for producing the segments of the cold cage in which the layer of good conductive metal 8, generally made of copper, is only coated on the side facing towards L inside the crucible, a protective deposit 9 made of stainless steel.
  • This simplified structure compared to the previous one can be used when the internal face of the crucible located opposite the corrosive charge is the only one exposed to corrosion, due in particular to the good isolation of the other faces of the segments from molten material.
  • the segments of the cold cage are made of stainless steel 9.
  • a deposit of copper 8 of thickness equal to or slightly greater than the penetration of the currents in the copper at the working frequency is applied to the three sides of the stainless steel profile not exposed to the aggression of the environment.
  • the thickness of the deposit is around twenty microns between 1 and 5 MHz, around around fifty microns between a few hundred Khz and 1 MHz, and a few hundred microns around 10 kHz.
  • the JouLe losses are only slightly increased compared to those of a copper crucible, only in proportion to the effective length of the stainless steel present, relative to the total periphery of the segment.
  • the cold crucibles described are capable of Wide applications in very varied scientific or industrial fields which range from Induction fusion or "autocreuset" of insulators such as Glass, refractory oxides, to fusion in the presence of metal slag or conductive alloys : titanium, zirconium, stainless steel, etc ... as well as The realization of inductive plasma torches exploited in highly aggressive medium: plasma of hydrogenated, halogenated medium, etc ...
  • the invention also applies to any form of cold crucible other than the cylindrical shape as presently described for example in cold crucibles of frustoconical, cylindroconical shape etc ... allowing in particular in the case of the uses of plasma selective dynamic effects in agreement with the physicochemical or metallurgical objective sought.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Crucibles And Fluidized-Bed Furnaces (AREA)
  • General Induction Heating (AREA)

Abstract

Cage froide pour creuset à fusion par induction électromagnétique à fréquence élevée, comportant, de façon connue, une série de segments creux (2) parcourus par de l'eau de refroidissement, entourée d'un bobinage inducteur (5) à haute ou moyenne fréquence, et dans laquelle sont confinés les produits à fondre (6), caractérisée en ce qu'au moins une partie des parois de chaque segment (2) de la cage (1) est constituée d'au moins deux couches de matériaux adjacentes, et en ce que les épaisseurs relatives de ces couches ainsi que la fréquence d'alimentation de l'inducteur électrique (5) sont choisies de façon telle que les courants de Foucault induits dans la cage se développent dans une couche bonne conductrice de l'életricité.Cold cage for melting crucible by electromagnetic induction at high frequency, comprising, in known manner, a series of hollow segments (2) traversed by cooling water, surrounded by an inductor winding (5) at high or medium frequency , and in which the products to be melted are confined (6), characterized in that at least part of the walls of each segment (2) of the cage (1) consists of at least two layers of adjacent materials, and in that the relative thicknesses of these layers as well as the frequency of supply of the electric inductor (5) are chosen in such a way that the eddy currents induced in the cage develop in a layer which is good conductor of electricity.

Description

La Littérature technique a Largement décrit, ces dernières années, Les "cages froides" ou "creusets froids" utilisés dans des applications phi- sico-chimiques ou de métallurgie spéciale, notamment en vue de La fusion par induction à haute ou moyenne fréquence de métaux ou alliages spéciaux, ou matériaux isolants réfractaires ou non, se déroulant souvent à température élevée. La plupart des creusets froids décrits comportent un nombre plus ou moins grand de segments, soit droits, soit disposés en épingle. GénéraLement, ces segments sont réalisés en cuivre, qui convient parfaitement si l'opération de fusion est effectuée sans contact direct avec Le creuset sous ambiance protectrice, ou si Le cuivre du creuset se trouve protégé du bain Liquide par une couche protectrice de Laitier solide ou encore par une carapace naturelle du matériau Liquide (isolant dans Les conditions normales) fondu par induction à fréquence appropriée et dont une mince pellicule est solidifiée au contact du creuset froid.Technical literature has widely described, in recent years, "cold cages" or "cold crucibles" used in physico-chemical applications or special metallurgy, in particular for the melting by induction at high or medium frequency of metals or special alloys, or insulating materials, refractory or not, often occurring at high temperature. Most of the cold crucibles described comprise a greater or lesser number of segments, either straight or arranged in a pin. Generally, these segments are made of copper, which is perfectly suitable if the melting operation is carried out without direct contact with the crucible in a protective atmosphere, or if the copper in the crucible is protected from the liquid bath by a protective layer of solid slag or again by a natural shell of the Liquid material (insulating under normal conditions) melted by induction at appropriate frequency and of which a thin film is solidified in contact with the cold crucible.

Cet état de La technique connu est représenté sur La figure 1 qui montre en perspective-élévation un creuset froid dont La cage froide 1 est composée d'un certain nombre de segments tels que 2 en cuivre. Cette cage 1 est refroidie par une circulation d'eau schématiquement représentée par des entrées 3 et des sorties 4 mettant en communication L'intérieur de chaque segment 2 avec l'extérieur. Sur La figure 1 on a représenté en outre Le bobinage inducteur 5 qui est chargé de réaliser La fusion du matériau 6 par induction magnétique à fréquence élevée. Ce matériau 6 enfermé dans Le creuset 1, rendu intérieurement étanche par une croûte solidifiée 7, constitue ainsi en quelque sorte Le secondaire d'un transformateur dont L'inducteur 5 est Le primaire. C'est sous l'influence des courants secondaires à haute fréquence qui se développent dans Le matériau 6 que celui-ci s'échauffe puis parvient à La fusion recherchée.This known state of the art is shown in Figure 1 which shows in perspective-elevation a cold crucible whose cold cage 1 is composed of a number of segments such as 2 in copper. This cage 1 is cooled by a circulation of water schematically represented by inlets 3 and outlets 4 putting the interior of each segment 2 into communication with the exterior. FIG. 1 also shows the inductor winding 5 which is responsible for carrying out the melting of the material 6 by magnetic induction at high frequency. This material 6 enclosed in the crucible 1, internally sealed by a solidified crust 7, thus constitutes what the secondary of a transformer whose Inductor 5 is the primary. It is under the influence of high frequency secondary currents that develop in the material 6 that it heats up and then achieves the desired fusion.

Toutefois, dans un certain nombre d'opérations de plus en plus nombreuses du fait de L'accroissement considérable des applications potentielles de La fusion ou des traitements physico-chimiques ou métallurgiques en creuset froid, il peut se produire, Lorsque Le creuset est plongé dans un environnement physiquement ou chimiquement agressif, une altération du cuivre soit par attaque chimique, soit par entraînement de particules ou d'atomes de cuivre par effet d'érosion ou de désorption superficielle. Ces effets sont très gênants dans La mesure où ils sont susceptibles d'une part d'occasionner une usure prématurée du creuset ou d'autre part d'engendrer une pollution du matériau traité dans Le creuset Lorsque celui-ci est utilisé pour l'élaboration de matériaux de très haute pureté.However, in a certain number of increasingly numerous operations due to the considerable increase in the potential applications of fusion or of physico-chemical or metallurgical treatments in cold crucible, it can occur, when the crucible is immersed in a physically or chemically aggressive environment, an alteration of copper either by chemical attack, or by entrainment of copper particles or atoms by effect of erosion or surface desorption. These effects are very troublesome insofar as they are likely on the one hand to cause premature wear of the crucible or on the other hand to cause pollution of the material treated in the crucible When the latter is used for the preparation of very high purity materials.

Ces phénomènes néfastes Liés à La présence du cuivre en tant que métal de base de La cage froide sont encore amplifiés quand celle-ci est utilisée, et Les cas d'appLication en sont de plus en plus nombreux, comme enceinte de confinement ou d'entretien d'un plasma inductif ; de telles torches à plasma inductif sont en effet de plus en plus utilisées pour La préparation de métaux, alliages ou matériaux nobles ultra purs : silice, quartz, alumine, silicium, titane, etc...These harmful phenomena linked to the presence of copper as the base metal of the cold cage are further amplified when it is used, and the cases of application are more and more numerous, as containment or maintenance of an inductive plasma; such inductive plasma torches are in fact increasingly used for the preparation of ultra pure metals, alloys or noble materials: silica, quartz, alumina, silicon, titanium, etc.

La présente invention a précisément pour objet une cage froide pour creuset à fusion par induction électromagnétique qui permet de remédier aux inconvénients préalables de L'art antérieur tout en conservant Les avantages bien connus de La fusion ou du traitement physico-chimique en creuset froid.The present invention specifically relates to a cold cage for melting crucible by electromagnetic induction which overcomes the prior drawbacks of the prior art while con serving The well known advantages of fusion or physico-chemical treatment in a cold crucible.

Cette cage froide pour creuset à fusion par induction électrique qui comporte de façon connue une série de segments creux parcourus par de L'eau de refroidissement, entourée d'un bobinage inducteur à haute ou moyenne fréquence, et dans LaqueLLe sont confinés Les produits à fondre, se caractérise en ce qu'au moins une partie des parois de chaque segment de La cage est constituée d'au moins deux couches de matériaux adjacentes, dont L'une résistant à La corrosion est en contact avec Les produits à fondre, et dont L'autre est bon conducteur de l'électricité, et en ce que Les épaisseurs relatives de ces couches ainsi que La fréquence d'alimentation de L'inducteur électrique sont choisies de façon telle que Les courants de Foucault induits dans La cage se développent principalement dans une couche bonne conductrice de l'électricité.This cold cage for an electric induction melting crucible which in a known manner comprises a series of hollow segments traversed by cooling water, surrounded by a high or medium frequency inductor winding, and in which are confined the products to be melted. , is characterized in that at least a part of the walls of each segment of the cage consists of at least two layers of adjacent materials, one of which is resistant to corrosion is in contact with the products to be melted, and whose The other is a good conductor of electricity, and in that the relative thicknesses of these layers as well as the frequency of supply of the electric inductor are chosen in such a way that the eddy currents induced in the cage develop mainly. in a layer that conducts electricity well.

On voit donc que la structure de La cage froide objet de L'invention consiste essentiellement à réaliser Les segments du creuset, non plus uniquement en cuivre, mais en une structure composite comportant au moins deux métaux étroitement appliqués L'un contre l'autre, l'un bon conducteur de l'électricité, donc à faibles pertes Joule, l'autre plus résistif électriquement mais caractérisé par une plus grande résistance à La corrosion : ladite structure composite ou sandwich est appliquée soit à La totalité de La cage, soit au moins à La paroi interne de celle-ci plus particulièrement exposée aux effets de corrosion ou d'agression physico-chimiques ou même hydrodynamiques dans Le cas des plasmas.It can therefore be seen that the structure of the cold cage which is the subject of the invention consists essentially in making the crucible segments, no longer solely of copper, but of a composite structure comprising at least two metals closely applied one against the other, one good conductor of electricity, therefore with low Joule losses, the other more electrically resistive but characterized by greater resistance to Corrosion: said composite or sandwich structure is applied either to the whole of the cage, or to the less to the inner wall thereof more particularly exposed to the effects of corrosion or physicochemical or even hydrodynamic aggression in the case of plasmas.

La disposition essentielle de La structure selon l'invention consiste par conséquent à choisir Les épaisseurs respectives de métal anti-corrosion et de métal bon conducteur pour que Les courants de FoucauLt induits dans La cage sous L'infLuence du bobinage inducteur primaire et dont on sait que La profondeur à LaqueLLe ils se situent dépend de La fréquence de l'induction, se développent pour La plus grande part dans une couche bonne conductrice de L'éLectricité de façon à rendre minimales Les pertes par effet JouLe du système.The essential arrangement of the structure according to the invention therefore consists in choosing The respective thicknesses of anti-corrosion metal and good conductive metal so that the eddy currents induced in the cage under the influence of the primary inductor winding and which we know that the depth to which they are located depends on the frequency of the Induction, for the most part, develops in a layer which is a good conductor of electricity so as to minimize the losses due to the toy effect of the system.

SeLon l'invention, Le métal jouant le rôle anticorrosion du creuset et présent sur La face du segment tournée vers l'intérieur du creuset est constitué par un acier inoxydable bien connu pour sa résistance en milieu agressif. Mais il est aussi connu que, si L'épaisseur de L'acier inox est égale ou supérieure à La profondeur de pénétration des courants à La fréquence de travail dans ce métal, soit environ 5 mm à 10 kHz ou 5/10e de mm à 1 MHz, Les pertes Joule développées dans La couche externe en acier inoxydable sont six à sept fois supérieures à ceLLes observées dans La paroi aux dimensions identiques qui serait réalisée en cuivre. Ceci est très préjudiciable à L'obtention du rendement électrique acceptable du traitement effectué dans un tel creuset et L'invention permet d'éviter cet écueil.According to the invention, the metal playing the anti-corrosion role of the crucible and present on the face of the segment turned towards the inside of the crucible consists of a stainless steel well known for its resistance in aggressive medium. But it is also known that, if the thickness of the stainless steel is equal to or greater than the depth of penetration of the currents at the working frequency in this metal, that is to say about 5 mm at 10 kHz or 5 / 10th of a mm at 1 MHz, the Joule losses developed in the external stainless steel layer are six to seven times greater than those observed in the wall with identical dimensions which would be made of copper. This is very detrimental to obtaining the acceptable electrical efficiency of the treatment carried out in such a crucible and the invention makes it possible to avoid this pitfall.

Les dispositions pratiques de La cage selon l'invention permettent donc par un choix judicieux des épaisseurs de couches de cuivre et d'acier inoxydable en présence et des fréquences d'induction, de réaliser un creuset froid possédant à La fois une excellente résistance à La corrosion et des pertes JouLe compatibLes avec un rendement électrique acceptable.The practical arrangements of the cage according to the invention therefore make it possible, by a judicious choice of the thicknesses of layers of copper and of stainless steel present and of the induction frequencies, to produce a cold crucible having both excellent resistance to corrosion and losses Compatible with acceptable electrical efficiency.

De toute façon, L'invention sera mieux comprise en se référant à La description qui suit de plusieurs exemples de mise en oeuvre d'une cage froide pour creuset à fusion par induction électrique, description qui sera faite en se référant aux figures 2 à 5 ci-jointes sur lesquelles:

  • - La figure 2 représente en coupe élévation (figure 2a) et en coupe vue de dessus (figure 2b) un segment rectangulaire bimétal de cage froide conforme à l'invention;
  • - La figure 3 représente en coupe perpendiculaire à L'axe du creuset une partie des segments de La cage froide dans Le cas d'une structure bimétallique Limitée à La paroi interne du creuset ;
  • - La figure 4 représente également en coupe partielle selon un plan perpendiculaire à L'axe une partie des segments de La cage froide dans une autre forme de structure bimétallique à deux couches ;
  • - La figure 5 représente en coupe selon un plan perpendiculaire à l'axe du creuset, une partie des segments constituant La cage froide dans L'hypothèse d'une réalisation multicouches en sandwich des parois des segments.
Anyway, the invention will be better understood by referring to the following description of several examples of implementation of a cold cage for electric induction melting crucible, description which will be made with reference to Figures 2 to 5 attached in which:
  • - Figure 2 shows in sectional elevation (Figure 2a) and in section view from above (Figure 2b) a bimetal rectangular segment of cold cage according to the invention;
  • - Figure 3 shows in section perpendicular to the axis of the crucible part of the segments of the cold cage in the case of a bimetallic structure limited to the internal wall of the crucible;
  • - Figure 4 also shows in partial section along a plane perpendicular to the axis part of the segments of the cold cage in another form of bimetallic structure with two layers;
  • - Figure 5 shows in section along a plane perpendicular to the axis of the crucible, part of the segments constituting the cold cage in the hypothesis of a multilayer sandwich construction of the walls of the segments.

Sur Les figures 2a et 2b (vue en coupe selon Le plan horizontal AA de La figure 2a) on a représenté La constitution possible selon l'invention d'un segment 2 d'une cage froide pour creuset à fusion par induction électrique.In Figures 2a and 2b (sectional view along the horizontal plane AA of Figure 2a) there is shown the possible constitution according to the invention of a segment 2 of a cold cage for crucible melting by electrical induction.

Dans ce premier mode de réalisation revendiqué par l'invention, La paroi interne 8 des segments du creuset est réalisée en cuivre d'épaisseur appropriée, généralement située entre 1 et 3 mm. La paroi externe 9 en acier inox est faite sous La forme, par exemple, d'un revêtement régulier et uniforme en acier inoxydable, dont L'épaisseur est notablement inférieure à La profondeur de pénétration des courants dans L'inox. On appliquera par exemple un revêtement de 20 à 40 µm au-dessus de 1 MHz, 50 à 100 µm entre 500 kHz et 1 MHz. Le calcul et L'expérience montrent que Les creusets réalisés conformément à cette disposition résistent bien à La corrosion tout en présentant des pertes JouLe seulement légèrement supérieures à celles d'un creuset froid en cuivre. Le revêtement 9 en acier inoxydable est effectué en appliquant Les procédés physico-chimiques bien connus tels par exempLe que Le "sputtering" quand il s'agit de dépôts de faible épaisseur, inférieure à 200 µm par exemple. Pour des épaisseurs Largement supérieures et notamment de quelques 1/10e de mm à quelques mm, on peut appLiquer Les méthodes également bien connues du "shoopa- ge".In this first embodiment claimed by the invention, the internal wall 8 of the crucible segments is made of copper of suitable thickness, generally located between 1 and 3 mm. The external wall 9 of stainless steel is made in the form, for example, of a regular and uniform coating of stainless steel, the thickness of which is notably less than the depth of penetration of the currents in the stainless steel. For example, a coating of 20 to 40 µm above 1 MHz will be applied, 50 to 100 µm between 500 kHz and 1 MHz. Calculation and experience show that the crucibles produced in accordance with this provision resist corrosion well while presenting JouLe losses only slightly higher than those of a cold copper crucible. The coating 9 made of stainless steel is carried out by applying the well-known physicochemical processes such as, for example, "sputtering" when deposits of thin thickness, less than 200 μm for example are involved. For widely greater thicknesses and in particular from a few tenths of a millimeter to a few mm, the methods also well known for "shooping" can be applied.

A titre de variante de La réalisation précédente, La figure 3 représente également une structure bimétallique de réalisation des segments de La cage froide dans LaqueLLe La couche de métal bon conducteur 8, généralement en cuivre, n'est revêtue que sur La face tournée vers L'intérieur du creuset, d'un dépôt protecteur 9 en acier inoxydable. Cette structure simplifiée par rapport à La précédente peut être utilisée lorsque La face interne du creuset située vis-à-vis de La charge corrosive est seule exposée à La corrosion, en raison notamment du bon isolement des autres faces des segments vis-à-vis du matériau fondu.As a variant of the previous embodiment, FIG. 3 also represents a bimetallic structure for producing the segments of the cold cage in which the layer of good conductive metal 8, generally made of copper, is only coated on the side facing towards L inside the crucible, a protective deposit 9 made of stainless steel. This simplified structure compared to the previous one can be used when the internal face of the crucible located opposite the corrosive charge is the only one exposed to corrosion, due in particular to the good isolation of the other faces of the segments from molten material.

Dans un second mode de réalisation représenté sur La figure 4, Les segments de La cage froide sont réalisés en acier inoxydable 9. Un dépôt de cuivre 8 d'épaisseur égale ou Légèrement supérieure à La pénétration des courants dans Le cuivre à La fréquence de travail est appliqué sur Les trois faces du profilé d'acier inoxydable non exposées à L'agression du miLieu. L'épaisseur du dépôt est d'une vingtaine de microns entre 1 et 5 MHz, autour d'une cinquantaine de microns entre quelques centaines de Khz et 1 MHz, et de quelques centaines de microns autour de 10 kHz. Dans ce mode de réalisation, Les pertes JouLe ne sont que faiblement accrues par rapport à celles d'un creuset en cuivre, au seul prorata de La Longueur effective de l'acier inoxydable présent, rapportée à la périphérie totale du segment.In a second embodiment represented in FIG. 4, the segments of the cold cage are made of stainless steel 9. A deposit of copper 8 of thickness equal to or slightly greater than the penetration of the currents in the copper at the working frequency is applied to the three sides of the stainless steel profile not exposed to the aggression of the environment. The thickness of the deposit is around twenty microns between 1 and 5 MHz, around around fifty microns between a few hundred Khz and 1 MHz, and a few hundred microns around 10 kHz. In this embodiment, the JouLe losses are only slightly increased compared to those of a copper crucible, only in proportion to the effective length of the stainless steel present, relative to the total periphery of the segment.

Enfin, et toujours dans Le cadre de L'invention, il n'est pas exclu, par des modes de réalisation plus évolués et pour Les applications sélectives, de combiner les deux réalisations de creusets précédentes telles que décrites en figure 3 et figure 4 pour réaLiser une autre structure de creuset originale, laquelle n'est autre qu'une structure "trimétal" cuivre-inox-cuivre ou inox-cuivre-inox (figure 5) où Les couches de cuivre sont référencées 8 et Les couches d'acier inoxydable 9.Finally, and still within the scope of the invention, it is not excluded, by more advanced embodiments and for selective applications, to combine the two previous crucible embodiments as described in FIG. 3 and FIG. make another original crucible structure, which is none other than a "trimetal" copper-stainless steel-copper or stainless-copper-stainless steel structure (Figure 5) where The copper layers are referenced 8 and The stainless steel layers 9.

Les creusets froids décrits sont capables de Larges applications dans des domaines scientifiques ou industriels très variés qui vont de La fusion par induction ou "autocreuset" des isolants tels que Les verres, oxydes réfractaires, à La fusion en présence de Laitier de métaux ou alliages conducteurs : titane, zirconium, inox, etc... ainsi qu'à La réalisation de torches à plasma inductif exploitées en milieu fortement agressif : plasma de milieu hydrogéné, halogéné, etc...The cold crucibles described are capable of Wide applications in very varied scientific or industrial fields which range from Induction fusion or "autocreuset" of insulators such as Glass, refractory oxides, to fusion in the presence of metal slag or conductive alloys : titanium, zirconium, stainless steel, etc ... as well as The realization of inductive plasma torches exploited in highly aggressive medium: plasma of hydrogenated, halogenated medium, etc ...

IL va de soi que l'invention n'est pas limitée aux seuls exemples précédents, en particulier en ce qui concerne La forme des segments constituant Le creuset froid ; tout profil autre que rectangulaire, par exemple circulaire, trapézoidal, etc... doit être considéré comme rentrant dans Le cadre de l'invention.It goes without saying that the invention is not limited to the preceding examples only, in particular as regards the shape of the segments constituting the cold crucible; any profile other than rectangular, for example circular, trapezoidal, etc., must be considered to fall within the scope of the invention.

Enfin, l'invention s'applique également à toute forme de creuset froid autre que La forme cylindrique telle que présentement décrite par exemple aux creusets froids de forme tronconique, cylindroconique etc... permettant notamment dans le cas des utilisations de plasma des effets dynamiques sélectifs en concordance avec L'objectif physicochimique ou métallurgique recherché.Finally, the invention also applies to any form of cold crucible other than the cylindrical shape as presently described for example in cold crucibles of frustoconical, cylindroconical shape etc ... allowing in particular in the case of the uses of plasma selective dynamic effects in agreement with the physicochemical or metallurgical objective sought.

Claims (5)

1. Cage froide pour creuset à fusion par induction éLectromagnétique à fréquence élevée comportant, de façon connue, une série de segments creux (2) parcourus par de L'eau de refroidissement, entourée d'un bobinage inducteur (5) à haute ou moyenne fréquence, et dans LaqueLLe sont confinés Les produits à fondre (6), caractérisée en ce qu'au moins une partie des parois de chaque segment (2) de La cage (1) est constituée d'au moins deux couches de matériaux adjacentes, dont L'un résistant à La corrosion (9) est en contact avec les produits à fondre (6), et dont l'autre (8) est bon conducteur de l'électricité, et en ce que Les épaisseurs relatives de ces couches ainsi que La fréquence d'alimentation de l'inducteur électrique (5) sont choisies de façon telle que Les courants de FoucauLt induits dans La cage se développent principaLement dans une couche bonne conductrice de L'éLectricité.1. Cold cage for melting crucible by high frequency electromagnetic induction comprising, in known manner, a series of hollow segments (2) traversed by cooling water, surrounded by a high or medium inductor winding (5) frequency, and in which the products to be melted are confined (6), characterized in that at least part of the walls of each segment (2) of the cage (1) consists of at least two layers of adjacent materials, one of which corrosion resistant (9) is in contact with the products to be melted (6), and the other of which (8) is a good conductor of electricity, and in that the relative thicknesses of these layers thus that the supply frequency of the electric inductor (5) are chosen in such a way that the eddy currents induced in the cage develop mainly in a layer which is a good conductor of electricity. 2. Cage froide selon La revendication 1, caractérisé en ce que Le matériau résistant à La corrosion est de l'acier inoxydable et Le matériau bon conducteur de l'électricité est du cuivre.2. Cold cage according to claim 1, characterized in that The corrosion-resistant material is stainless steel and The material which is a good conductor of electricity is copper. 3. Cage froide selon L'une quelconque des revendications 1 et 2, caractérisée en ce que chaque segment (2) est réalisé en matériau bon conducteur (8) revêtu, sur La face tournée ves L'intérieur de La cage, d'une couche de matériau (9) résistant à La corrosion.3. Cold cage according to any one of claims 1 and 2, characterized in that each segment (2) is made of good conductive material (8) coated, on the face turned against the interior of the cage, with a layer of corrosion resistant material (9). 4. Cage froide selon L'une quelconque des revendications 1 et 2, caractérisée en ce que chaque segment est réalisé en matériau résistant bien à La corrosion (9) et revêtu, sur Les faces non en contact avec Le matériau fondu, d'une couche du matériau bon conducteur de l'électricité (8).4. Cold cage according to any one of claims 1 and 2, characterized in that each segment is made of material resistant to corrosion (9) and coated, on the faces not in contact with the molten material, with a layer of material that conducts electricity well (8). 5. Cage froide selon La revendication 4, caractérisée en ce que chaque segment (2) comporte, en outre, un revêtement interne (8) en matériau bon conducteur de l'électricité.5. Cold cage according to claim 4, characterized in that each segment (2) further comprises an internal coating (8) made of a material which is good conductor of electricity.
EP85401286A 1984-06-29 1985-06-25 Cooled casing for a crucible with high-frequency electromagnetic induction melting Withdrawn EP0169765A1 (en)

Applications Claiming Priority (2)

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FR8410364 1984-06-29
FR8410364A FR2566890B1 (en) 1984-06-29 1984-06-29 COLD CAGE FOR HIGH FREQUENCY ELECTROMAGNETIC INDUCTION MELTING CRUCIBLE

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0398821A2 (en) * 1989-05-08 1990-11-22 Howmet Corporation Segmented induction skull melting crucible and method
EP0526685A2 (en) * 1991-03-01 1993-02-10 Degussa Ag Process of semi-continuous smelting of ceramic materials by induction furnaces with skull melting crucible, a furnace therefor and apparatus for periodical tapping
FR2740646A1 (en) * 1995-10-27 1997-04-30 Electricite De France COLD CAGE FOR INDUCTION DEVICE
US5991328A (en) * 1996-07-23 1999-11-23 Ald Vacuum Technologies Gmbh Crucible for the inductive melting or superheating of metals, alloys, or other electrically conductive materials
FR2871151A1 (en) * 2004-06-07 2005-12-09 Centre Nat Rech Scient SILICON REFINING INSTALLATION
CN103179775A (en) * 2013-02-28 2013-06-26 中国科学院高能物理研究所 Superconducting accelerator, superconducting cavity for same and manufacturing method of superconducting accelerator

Families Citing this family (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3910777C2 (en) * 1989-04-04 2001-08-09 Ald Vacuum Techn Ag Induction furnace with a metal crucible
DE3940029C2 (en) * 1989-12-04 1994-04-14 Leybold Ag Crucibles for induction heating
US5132984A (en) * 1990-11-01 1992-07-21 Norton Company Segmented electric furnace
GB9600895D0 (en) * 1996-01-17 1996-03-20 Coutts Duncan R Improved method and apparatus for melting a particulate material
DE69837419T2 (en) * 1997-06-11 2007-12-20 Matsushita Electric Industrial Co., Ltd., Kadoma Device for inductive heating of liquids
DE10002019C1 (en) 2000-01-19 2001-11-15 Schott Glas Device for melting or refining inorganic substances, in particular glasses or glass ceramics
DE10002020C2 (en) * 2000-01-19 2003-08-14 Schott Glas Coating of chilled devices
DE10133469B4 (en) * 2001-07-10 2004-10-14 Schott Glas Device for melting high-purity optical glasses
FR2828981B1 (en) * 2001-08-23 2004-05-21 Commissariat Energie Atomique INDUCTION HEATING CRUCIBLE AND COOLING
DE10331103B4 (en) * 2002-07-04 2008-06-26 Schott Ag Double crucible for glass drawing process and method for producing glass fibers or associated preforms with the double crucible
US9039835B2 (en) * 2009-07-20 2015-05-26 Solin Development B.V. Apparatus for producing multicrystalline silicon ingots by induction method
KR101671489B1 (en) * 2010-07-29 2016-11-02 삼성디스플레이 주식회사 Evaporation source for organic material and vapor depositing apparatus including the same

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR1492063A (en) * 1966-04-05 1967-08-18 Commissariat Energie Atomique Further development of high frequency electric furnaces for the continuous production of electro-cast refractories
FR1576364A (en) * 1967-12-12 1969-08-01
GB1208146A (en) * 1968-05-30 1970-10-07 Standard Telephones Cables Ltd Apparatus for heat treatment of electrically conductive materials
FR2230046A1 (en) * 1973-05-18 1974-12-13 Asea Ab
US4207451A (en) * 1978-03-13 1980-06-10 Thermatool Corporation Multi-layered electrical induction coil subjected to large forces
DE2921472A1 (en) * 1979-05-26 1980-11-27 Aeg Elotherm Gmbh Helical induction coil for heating rod and similar workpieces - where internal part of coil is wound from solid rod to obtain small bore dia. for coil
FR2497050A1 (en) * 1980-12-23 1982-06-25 Saphymo Stel COLD CAGE DIRECT INDUCTION FUSION DEVICE WITH ELECTROMAGNETIC CONTAINMENT OF MOLTEN LOAD

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU985684A1 (en) * 1981-04-29 1982-12-30 Всесоюзный Научно-Исследовательский Проектно-Технологический И Конструкторский Институт Электротермического Оборудования Crucible for high-frequency induction melting of melts

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR1492063A (en) * 1966-04-05 1967-08-18 Commissariat Energie Atomique Further development of high frequency electric furnaces for the continuous production of electro-cast refractories
FR1576364A (en) * 1967-12-12 1969-08-01
GB1208146A (en) * 1968-05-30 1970-10-07 Standard Telephones Cables Ltd Apparatus for heat treatment of electrically conductive materials
FR2230046A1 (en) * 1973-05-18 1974-12-13 Asea Ab
US4207451A (en) * 1978-03-13 1980-06-10 Thermatool Corporation Multi-layered electrical induction coil subjected to large forces
DE2921472A1 (en) * 1979-05-26 1980-11-27 Aeg Elotherm Gmbh Helical induction coil for heating rod and similar workpieces - where internal part of coil is wound from solid rod to obtain small bore dia. for coil
FR2497050A1 (en) * 1980-12-23 1982-06-25 Saphymo Stel COLD CAGE DIRECT INDUCTION FUSION DEVICE WITH ELECTROMAGNETIC CONTAINMENT OF MOLTEN LOAD

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0398821A2 (en) * 1989-05-08 1990-11-22 Howmet Corporation Segmented induction skull melting crucible and method
EP0398821A3 (en) * 1989-05-08 1991-02-06 Howmet Corporation Segmented induction skull melting crucible and method
EP0526685A2 (en) * 1991-03-01 1993-02-10 Degussa Ag Process of semi-continuous smelting of ceramic materials by induction furnaces with skull melting crucible, a furnace therefor and apparatus for periodical tapping
EP0526685A3 (en) * 1991-03-01 1995-03-01 Degussa Process of semi-continuous smelting of ceramic materials by induction furnaces with skull melting crucible, a furnace therefor and apparatus for periodical tapping
FR2740646A1 (en) * 1995-10-27 1997-04-30 Electricite De France COLD CAGE FOR INDUCTION DEVICE
EP0771136A1 (en) * 1995-10-27 1997-05-02 Electricite De France Cooled casing for induction device
US5991328A (en) * 1996-07-23 1999-11-23 Ald Vacuum Technologies Gmbh Crucible for the inductive melting or superheating of metals, alloys, or other electrically conductive materials
FR2871151A1 (en) * 2004-06-07 2005-12-09 Centre Nat Rech Scient SILICON REFINING INSTALLATION
WO2005123585A2 (en) * 2004-06-07 2005-12-29 Centre National De La Recherche Scientifique Silicon refining installation
WO2005123585A3 (en) * 2004-06-07 2006-04-13 Centre Nat Rech Scient Silicon refining installation
CN103179775A (en) * 2013-02-28 2013-06-26 中国科学院高能物理研究所 Superconducting accelerator, superconducting cavity for same and manufacturing method of superconducting accelerator

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US4660212A (en) 1987-04-21
JPS6168888A (en) 1986-04-09
FR2566890A1 (en) 1986-01-03
FR2566890B1 (en) 1986-11-14

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