EP0048880A1 - Method of fixing the windings of a superconductive magnet coil - Google Patents

Method of fixing the windings of a superconductive magnet coil Download PDF

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Publication number
EP0048880A1
EP0048880A1 EP81107230A EP81107230A EP0048880A1 EP 0048880 A1 EP0048880 A1 EP 0048880A1 EP 81107230 A EP81107230 A EP 81107230A EP 81107230 A EP81107230 A EP 81107230A EP 0048880 A1 EP0048880 A1 EP 0048880A1
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Prior art keywords
winding
putty
temperature
annealing
superconducting
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EP81107230A
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German (de)
French (fr)
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EP0048880B1 (en
Inventor
Fritz Dr. Assmus
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Vacuumschmelze GmbH and Co KG
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Vacuumschmelze GmbH and Co KG
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F6/00Superconducting magnets; Superconducting coils
    • H01F6/06Coils, e.g. winding, insulating, terminating or casing arrangements therefor
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F41/00Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties
    • H01F41/02Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets
    • H01F41/04Apparatus or processes specially adapted for manufacturing or assembling magnets, inductances or transformers; Apparatus or processes specially adapted for manufacturing materials characterised by their magnetic properties for manufacturing cores, coils, or magnets for manufacturing coils
    • H01F41/12Insulating of windings
    • H01F41/122Insulating between turns or between winding layers

Definitions

  • the invention relates to a method for fixing the windings of a superconducting magnetic winding, which is initially built up from preliminary conductor products and in which the superconducting properties are generated by reaction annealing of the finished winding.
  • Superconducting intermetallic compounds with an A15 crystal structure such as the two-component compounds Nb 3 Sn and V 3 Ga or the ternary compound Nb 3 Al 0.8 Ge 0.2 , have good superconducting properties and are distinguished by high critical values, ie due to a high transition temperature, a high critical current density and a high critical magnetic field.
  • the superconducting intermetallic compounds are generally very brittle, so that their preparation in a form suitable for magnetic coils is difficult.
  • the general procedure today is that a rod or wire made of the higher-melting element of the connection is first provided with a shell made of an alloy which consists of a carrier metal and the lower-melting element of the connection or, if appropriate, several such elements.
  • a niobium wire is surrounded by a sheath made of Cu-tin bronze.
  • a large number of these covered wires are then combined into a bundle.
  • a wire or a strip of an alloy matrix is thus obtained, in which a multiplicity of thread-shaped cores from the higher-melting element of the connection is embedded, for example a copper-tin wire with a large number of embedded niobium filaments.
  • a preliminary conductor product is then subjected to an annealing treatment in which the element or elements of the compound contained in the matrix diffuse into the cores of the higher-melting element and react with it to form the intermetallic compound (see, for example, DE-OS 20 44 660).
  • Superconducting magnetic coils from such superconductors have hitherto generally been produced by two different processes (cf. e.g. DE-OS 28 37 199 and 28 40 526).
  • the preliminary conductor product is wound onto a provisional winding body and then annealed to form the desired superconducting compound.
  • the superconductor produced in this way is unwound again from the provisional winding body and can then be wound, for example, into a magnetic coil.
  • the high brittleness of the superconducting intermetallic compounds there is a risk that cracks will occur in the intermetallic superconducting compounds due to inadvertent falling below the bending radius permissible for the completely reacted conductor and the superconducting properties will be impaired accordingly.
  • the coil body of the magnet to be provided with the winding is wound with the as yet unreacted conductor preliminary product and the entire magnet thus wound is then subjected to diffusion annealing.
  • the diffusion annealing is also called “in situ annealing”. This procedure avoids all difficulties in processing a brittle conductor material.
  • diffusion annealing The materials present in the coil can withstand the required high temperatures for several hours, for example in the case of Nb 3 Sn around 700 ° C.
  • the conductor pre-product wrapped or wound with an insulation made of glass, ceramic or quartz threads has been wound onto a correspondingly high-temperature-resistant coil body and the coil windings are finally fixed only after the diffusion annealing, by covering the finished winding with suitable curable or solidifying organic materials upon cooling , for example epoxy resins or paraffin, preferably impregnated by vacuum impregnation (cf. DE-OS 25 46 198 and 28 37 199).
  • the object of the invention is to further improve the production of superconducting magnetic windings, the superconducting properties of which are generated by reaction annealing (in-situ annealing) of the finished winding.
  • the method according to the invention leads to a fixed fixation of the individual turns of the coil winding even before the reaction annealing and thus avoids the shape and position changes occurring in unfixed turns due to the thermal expansion or contraction and their disadvantageous consequences. Furthermore, it has been shown that the formation of carbon bridges is also avoided by the putty introduced into the winding. It is therefore no longer necessary to remove the sizes or the binders of the insulation materials from the winding before the annealing treatment.
  • Suitable putties are inorganic materials which, if necessary after prior mixing with water or other suitable inorganic liquids, can be hardened or otherwise harden or solidify and in the solidified state both at the high temperatures required for reaction annealing of, for example, about 700 ° C. at Nb 3 Sn as well as at the low temperatures required to bring about the superconducting state, for example the temperature of the liquid helium of 4.2 K, are stable.
  • the putties should also have good resistance to temperature changes so that no damage occurs in the winding even when the coil is repeatedly cooled to low temperatures. For similar reasons, the putties should not differ too much from the superconductor material with regard to their thermal expansion. Furthermore, good thermal conductivity of the cement is also advantageous for effective cooling of the coil winding. Unstable connections that release metals during reaction annealing should not be included in the kit, since the insulation of the winding would be impaired by the released metal.
  • a putty made from water glass (sodium silicate solution) and talcum (soapstone powder) has proven to be particularly suitable. This putty solidifies into a hard mass made of double silicates, which very well fulfills the aforementioned requirements.
  • a mixture of about 60% by weight of water glass and 40% by weight of talcum is preferably used, which can still be processed well even after a long standing time.
  • This two-stage heat treatment can be combined with reaction annealing to form a three-stage heat treatment.
  • a particularly stable winding structure can be obtained by first applying an insulating mat made of high-temperature resistant material, for example a glass fiber mat, to a high-temperature-resistant coil former, for example made of stainless steel, and then impregnating it with the putty, then applying the successive layers of the conductor winding and in each case with the putty are coated and finally the finished winding is surrounded by another high-temperature-resistant insulating mat, which is also to be impregnated with putty, and finally the putty is cured at elevated temperature.
  • further high-temperature-resistant insulating mats can also be inserted between the individual layers of the winding.
  • a strip-shaped, 1 mm wide and 0.3 mm thick conductor pre-product made of a copper-tin matrix with 1159 embedded niobium filaments was assumed.
  • the preliminary conductor product was provided with a glass fiber covering on which an organic size was applied.
  • a water glass-talcum mixture with about 60% by weight of fresh water glass and about 40% by weight of talc was used as the putty. If the water glass remains open for a long time before mixing with the talcum powder, it becomes thinner. It is then advisable to increase the proportion of talcum to increase the viscosity of the putty.
  • the bobbin used to wind the bobbin was made of non-magnetic stainless steel and was equipped with two disk-shaped side flanges and a central bore with a diameter of 25 mm.
  • the inner winding diameter was 30 mm, the outer winding diameter 50 mm, the winding length 40 mm.
  • the coil was first heated to about 37 ° C for a few hours. This is sufficient if the water vapor can escape from the winding, for example through holes provided in the disk-shaped side flanges or in other ways. This drying step prevents cracks from appearing in the putty during subsequent curing.
  • the putty was then given the required strength by a second heat treatment at 117 C for several hours.
  • the coil was finally wrapped in a serving as a getter and zirconium foil long subjected to about two days under argon, the reaction heat at about 700 0 C.
  • the coil was cast with resin in a protective trough. Instead of the casting resin, an inorganic putty can also be used.
  • the finished coil was then inserted into the bore of a larger superconducting magnet and tested in its magnetic field. With a magnetic induction of 7 Tesla generated by the outer coil, a magnetic inductor was found in the bore of the inner coil tion of 9 Tesla reached. A training behavior of the coil produced according to the method according to the application could not be determined. In an external field of 2 Tesla, the critical current density was of Nb3Sn conductor of the inner coil about 90 000 A / cm 2, in an external field of 7 Tesla about 45 000 A / cm 2.
  • the method according to the application has proven itself in the same way for larger coils of up to 177 mm winding length and 119 mm outer winding diameter.
  • the packing density of the winding could be increased even further by omitting the insulating mats between the individual winding layers. In this case, putty is applied to each winding layer and the next winding layer is wound directly over it. However, omitting the layer insulation is only recommended if the actual conductor insulation consists of a fiber wound. If the pre-products for insulation are only wrapped with glass fiber, for example, the insulating mats should be retained to insulate the winding layers from each other.
  • the putty applied to the previous winding layer is not sufficient to impregnate the insulating mat, putty is expediently applied to it again before the next winding layer is applied.
  • organic binders for example with polyvinyl butyral
  • there were no difficulties in the process according to the application there were no difficulties in the process according to the application.
  • the thermal decomposition of the polyvinyl butyral during the Heating of the coil for reaction annealing released carbon prevented by the putty from forming conductive bridges between the turns. Carbon-releasing substances therefore do not need to be removed or at least not completely removed before the reaction annealing when winding the coil.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Manufacturing & Machinery (AREA)
  • Superconductors And Manufacturing Methods Therefor (AREA)
  • Manufacturing Cores, Coils, And Magnets (AREA)

Abstract

1. A method of fixing the turns of a superconductive magnetic winding which is initially composed of conducting initial products and in which the superconductive properties are produced by a reactive annealing of the finished winding, characterised in that when winding the conducting initial products a cement, made of an insulating inorganic material and which, in the hardened state, is stable at the low temperatures required for bringing about the superconductive state and at the high temperatures required for the reactive annealing, is introduced into the winding and, on completion of the winding, is hardened before the reactive annealing is carried out.

Description

Die Erfindung betrifft ein Verfahren zum Fixieren der Windungen einer supraleitenden Magnetwicklung, die zunächst aus Leitervorprodukten aufgebaut wird und bei der die supraleitenden Eigenschaften durch eine Reaktionsglühung der fertigen Wicklung erzeugt werden.The invention relates to a method for fixing the windings of a superconducting magnetic winding, which is initially built up from preliminary conductor products and in which the superconducting properties are generated by reaction annealing of the finished winding.

Supraleitende intermetallische Verbindungen mit A15-Kristallstruktur, wie beispielsweise die zweikomponen- tigen Verbindungen Nb3Sn und V3Ga oder die ternäre Verbindung Nb3Al0,8Ge0,2, haben gute Supraleitungseigenschaften und zeichnen sich durch hohe kritische Werte aus, d.h. durch eine hohe Sprungtemperatur, eine hohe kritische Stromdichte und ein hohes kritisches Magnetfeld.Superconducting intermetallic compounds with an A15 crystal structure, such as the two-component compounds Nb 3 Sn and V 3 Ga or the ternary compound Nb 3 Al 0.8 Ge 0.2 , have good superconducting properties and are distinguished by high critical values, ie due to a high transition temperature, a high critical current density and a high critical magnetic field.

Sie eignen sich daher besonders als Leitermaterialien für Supraleitungsmagnetspulen zum Erzeugen starker Magnetfelder.They are therefore particularly suitable as conductor materials for superconducting magnetic coils for generating strong magnetic fields.

Die supraleitenden intermetallischen Verbindungen sind jedoch im allgemeinen sehr spröde, so daß ihre Herstellung in einer für Magnetspulen geeigneten Form mit Schwierigkeiten verbunden ist. Man geht heute im allgemeinen derart vor, daß zunächst ein Stab oder Draht aus dem höherschmelzenden Element der Verbindung mit einer Hülle aus einer Legierung versehen wird, die aus einem Trägermetall und dem niedrigerschmelzenden Element der Verbindung bzw. gegebenenfalls mehreren solchen Elementen besteht. Beispielsweise wird ein Niob-Draht mit einer Hülle aus Cu -Zinn-Bronze umgeben. Eine Vielzahl dieser umhüllten Drähte wird dann zu einem Bündel zusammengefaßt. Man kann aber beispielsweise auch mehrere Drähte in einen mit Bohrungen versehenen Block aus der Bronze einlagern. Der so gewonnene Aufbau wird dann einer querschnittsverringernden Bearbeitung unterzogen. Man erhält so einen Draht oder ein Band aus einer Legierungsmatrix, in die eine Vielzahl von fadenförmigen Kernen aus dem höherschmelzenden Element der Verbindung eingelagert ist, also beispielsweise einen Kupfer-Zinn-Draht mit einer Vielzahl von eingelagerten Niob-Filamenten. Zur Erzeugung der intermetallischen supraleitenden Verbindung wird dann ein solches Leitervorprodukt einer Glühbehandlung unterzogen, bei der das in der Matrix enthaltene Element bzw. die in der Matrix enthaltenen Elemente der Verbindung in die Kerne aus dem höherschmelzenden Element eindiffundieren und mit diesem unter Bildung der intermetallischen Verbindung reagieren (vgl. z.B. DE-OS 20 44 660).However, the superconducting intermetallic compounds are generally very brittle, so that their preparation in a form suitable for magnetic coils is difficult. The general procedure today is that a rod or wire made of the higher-melting element of the connection is first provided with a shell made of an alloy which consists of a carrier metal and the lower-melting element of the connection or, if appropriate, several such elements. For example, a niobium wire is surrounded by a sheath made of Cu-tin bronze. A large number of these covered wires are then combined into a bundle. However, it is also possible, for example, to store several wires in a block made of bronze with holes. The structure obtained in this way is then subjected to processing which reduces the cross section. A wire or a strip of an alloy matrix is thus obtained, in which a multiplicity of thread-shaped cores from the higher-melting element of the connection is embedded, for example a copper-tin wire with a large number of embedded niobium filaments. To produce the intermetallic superconducting compound, such a preliminary conductor product is then subjected to an annealing treatment in which the element or elements of the compound contained in the matrix diffuse into the cores of the higher-melting element and react with it to form the intermetallic compound (see, for example, DE-OS 20 44 660).

Supraleitende Magnetspulen aus solchen Supraleitern werden bisher im allgemeinen nach zwei verschiedenen Verfahren hergestellt (vgl. z.B. DE-OS 28 37 199 und 28 40 526).Superconducting magnetic coils from such superconductors have hitherto generally been produced by two different processes (cf. e.g. DE-OS 28 37 199 and 28 40 526).

Bei dem ersten Verfahren, das auch als "react firstwind then-Verfahren" bezeichnet wird, wickelt man das Leitervorprodukt auf einen provisorischen Wickelkörper auf und glüht es dann zur Bildung der gewünschten supraleitenden Verbindung. Im Anschluß an die Glühbehandlung wird der so hergestellte Supraleiter wieder von dem provisorischen Wickelkörper abgewickelt und kann dann beispielsweise zu einer Magnetspule gewickelt werden. Wegen der hohen Sprödigkeit der supraleitenden intermetallischen Verbindungen besteht dabei jedoch die Gefahr, daß durch unbeabsichtigtes Unterschreiten des für den fertig reagierten Leiter zulässigen Biegeradiusses in den intermetallischen supraleitenden Verbindungen Risse auftreten und die Supraleitungseigenschaften dementsprechend beeinträchtigt werden.In the first process, which is also referred to as the "react first wind then process", the preliminary conductor product is wound onto a provisional winding body and then annealed to form the desired superconducting compound. Following the annealing treatment, the superconductor produced in this way is unwound again from the provisional winding body and can then be wound, for example, into a magnetic coil. However, because of the high brittleness of the superconducting intermetallic compounds, there is a risk that cracks will occur in the intermetallic superconducting compounds due to inadvertent falling below the bending radius permissible for the completely reacted conductor and the superconducting properties will be impaired accordingly.

Um diese Gefahr zu umgehen, wendet man ein anderes Verfahren an, das auch als "wind and react-Technik" bezeichnet wird. Dabei bewickelt man den Spulenkörper des mit der Wicklung zu versehenden Magneten mit dem noch nicht reagierten Leitervorprodukt und setzt dann den gesamten so bewickelten Magneten der Diffusionsglühung aus. Da dabei die intermetallische Verbindung erst in situ in der Spule oder Wicklung erzeugt wird, nennt man in diesem Fall die Diffusionsglühung auch "in situ-Glühung". Bei dieser Verfahrensweise werden alle Schwierigkeiten der Verarbeitung eines spröden Leitermaterials vermieden. Jedoch müssen die bei der Diffusionsglühung in der Spule vorhandenen Materialien mehrere Stunden lang die erforderlichen hohen Temperaturen aushalten, die beispielsweise im Falle von Nb 3Sn bei etwa 700°C liegen.To avoid this danger, another method is used, which is also referred to as the "wind and react technique". In this case, the coil body of the magnet to be provided with the winding is wound with the as yet unreacted conductor preliminary product and the entire magnet thus wound is then subjected to diffusion annealing. In this case, since the intermetallic connection is only generated in situ in the coil or winding, the diffusion annealing is also called "in situ annealing". This procedure avoids all difficulties in processing a brittle conductor material. However, in the case of diffusion annealing The materials present in the coil can withstand the required high temperatures for several hours, for example in the case of Nb 3 Sn around 700 ° C.

Man wickelt daher bisher das mit einer Isolation aus Glas-, Keramik- oder Quarzfäden umwickelte oder umsponnene Leitervorprodukt auf einen entsprechend hochtemperaturbeständigen Spulenkörper auf und fixiert die Spulenwindungen endgültig erst nach der Diffusionsglühung, indem man die fertige Wicklung mit geeigneten aushärtbaren oder bei Abkühlung erstarrenden organischen Materialien, beispielsweise Epoxidharzen oder Paraffin, vorzugsweise durch Vakuumtränken imprägniert (vgl. DE-OS 25 46 198 und 28 37 199).Up to now, therefore, the conductor pre-product wrapped or wound with an insulation made of glass, ceramic or quartz threads has been wound onto a correspondingly high-temperature-resistant coil body and the coil windings are finally fixed only after the diffusion annealing, by covering the finished winding with suitable curable or solidifying organic materials upon cooling , for example epoxy resins or paraffin, preferably impregnated by vacuum impregnation (cf. DE-OS 25 46 198 and 28 37 199).

Auch diese Verfahrensweise ist jedoch nicht frei von Problemen. Es besteht einmal die Schwierigkeit, daß sich bei der Diffusionsglühung Kohlenstoff zwischen den Spulenwindungen abscheidet und dadurch die Isolation der Spule verschlechtert wird. Die in der Spulenwicklung üblicherweise verwendeten Isolationsmaterialien aus Glas-, Keramik- oder Quarzfäden sind nämlich zur Erleichterung ihrer Handhabung in der Regel mit organischen Schlichten oder Bindemitteln versehen, die sich bei den hohen Temperaturen zersetzen. Man wendet daher spezielle Verfahren an, um die Schlichten oder Bindemittel vor der Reaktionsglühung aus der Spule zu entfernen (DE-OS 28 37 199). Derartige Verfahren erfordern aber einen gewissen Aufwand. Da die erwähnten Isolationsmaterialien mit steigender Temperatur an Festigkeit verlieren, besteht ferner die Gefahr, daß die bei der Glühbehandlung nicht weiter fixierten Windungen ihre Lage oder Form ändern. Auch dies kann eine Verschlechterung der Isolation zwischen den Windungen zur Folge haben und außerdem zu nicht vorhersehbaren Änderungen der Feldverteilung in der Wicklung führen.However, this procedure is also not without problems. On the one hand, there is the difficulty that carbon is deposited between the coil turns during the diffusion annealing and the insulation of the coil is thereby deteriorated. The insulation materials usually used in the coil winding made of glass, ceramic or quartz threads are usually provided with organic sizes or binders to facilitate their handling, which decompose at the high temperatures. Special methods are therefore used to remove the sizes or binders from the coil before the reaction annealing (DE-OS 28 37 199). However, such methods require a certain amount of effort. Since the insulation materials mentioned lose strength with increasing temperature, there is also the risk that the turns which are not further fixed during the annealing treatment change their position or shape. This can also result in a deterioration in the insulation between the turns and, moreover, lead to unforeseeable changes in the field distribution in the winding.

Aufgabe der Erfindung ist es, die Herstellung von supraleitenden Magnetwicklungen, deren supraleitende Eigenschaften durch eine Reaktionsglühung (in-situ-Glühung) der fertigen Wicklung erzeugt werden, weiter zu verbessern.The object of the invention is to further improve the production of superconducting magnetic windings, the superconducting properties of which are generated by reaction annealing (in-situ annealing) of the finished winding.

Dies wird erfindungsgemäß dadurch erreicht, daß beim Wickeln der Leitervorprodukte ein Kitt aus isolierendem anorganischem Material, der im verfestigten Zustand bei den zur Herbeiführung des supraleitenden Zustandes erforderlichen tiefen Temperaturen und bei den zur Reaktionsglühung erforderlichen hohen Temperaturen beständig ist, in die Wicklung eingebracht und nach Fertigstellung der Wicklung vor Durchführung der Reaktionsglühung verfestigt wird.This is achieved according to the invention in that, when winding the preliminary conductor products, a putty made of insulating inorganic material, which is solidified in the solidified state at the low temperatures required to bring about the superconducting state and at the high temperatures required for reaction annealing, is introduced into the winding and after completion the winding is solidified before performing the reaction annealing.

Das erfindungsgemäße Verfahren führt zu einer festen Fixierung der einzelnen Windungen der Spulenwicklung bereits vor der Reaktionsglühung und vermeidet so die bei unfixierten Windungen infolge der thermischen Dehnung bzw. Kontraktion auftretenden Form- und Lageänderungen und deren nachteilige Folgen. Ferner hat sich gezeigt, daß durch den in die Wicklung eingebrachten Kitt auch die Bildung von Kohlenstoffbrücken vermieden wird. Es ist daher nicht mehr nötig, die Schlichten bzw. die Bindemittel der Isolationsmaterialien vor der Glühbehandlung aus der Wicklung zu entfernen.The method according to the invention leads to a fixed fixation of the individual turns of the coil winding even before the reaction annealing and thus avoids the shape and position changes occurring in unfixed turns due to the thermal expansion or contraction and their disadvantageous consequences. Furthermore, it has been shown that the formation of carbon bridges is also avoided by the putty introduced into the winding. It is therefore no longer necessary to remove the sizes or the binders of the insulation materials from the winding before the annealing treatment.

Als Kitte eignen sich anorganische Materialien, die, gegegebenenfalls nach vorheriger Vermischung mit Wasser oder anderen geeigneten anorganischen Flüssigkeiten, aushärtbar sind oder sich anderweitig erhärten oder verfestigen und im verfestigten Zustand sowohl bei den zur Reaktionsglühung erforderlichen hohen Temperaturen von z.B. etwa 7000C bei Nb3Sn als auch bei den zur Herbeiführung des supraleitenden Zustandes erforderlichen tiefen Temperaturen, beispielsweise der Temperatur des flüssigen Heliums von 4,2 K, beständig sind. Die Kitte sollen ferner eine gute Temperaturwechselbeständigkeit besitzen, damit auch bei wiederholter Abkühlung der Spule auf tiefe Temperaturen keine Schäden in der Wicklung auftreten. Aus ähnlichen Gründen sollen sich die Kitte auch hinsichtlich ihrer thermischen Ausdehnung nicht zu stark vom Supraleitermaterial unterscheiden. Ferner ist für eine effektive Kühlung der Spulenwicklung auch eine gute Wärmeleitfähigkeit des Kitts vorteilhaft. Instabile Verbindungen, die bei der Reaktionsglühung Metalle freisetzen, sollen in den Kitten nicht enthalten sein, da durch das freigesetzte Metall die Isolation der Wicklung verschlechtert würde.Suitable putties are inorganic materials which, if necessary after prior mixing with water or other suitable inorganic liquids, can be hardened or otherwise harden or solidify and in the solidified state both at the high temperatures required for reaction annealing of, for example, about 700 ° C. at Nb 3 Sn as well as at the low temperatures required to bring about the superconducting state, for example the temperature of the liquid helium of 4.2 K, are stable. The putties should also have good resistance to temperature changes so that no damage occurs in the winding even when the coil is repeatedly cooled to low temperatures. For similar reasons, the putties should not differ too much from the superconductor material with regard to their thermal expansion. Furthermore, good thermal conductivity of the cement is also advantageous for effective cooling of the coil winding. Unstable connections that release metals during reaction annealing should not be included in the kit, since the insulation of the winding would be impaired by the released metal.

Als besonders geeignet hat sich ein Kitt aus Wasserglas (Natriumsilikatlösung) und Talcum (Specksteinpulver) erwiesen. Dieser Kitt verfestigt sich zu einer harten Masse aus Doppelsilikaten, welche die vorerwähnten Anforderungen sehr gut erfüllt. Bevorzugt wird ein Gemisch aus etwa 60 Gew.-% Wasserglas und 40 Gew.-% Talcum verwendet, das sich auch nach längerer Stehzeit noch gut verarbeiten läßt.A putty made from water glass (sodium silicate solution) and talcum (soapstone powder) has proven to be particularly suitable. This putty solidifies into a hard mass made of double silicates, which very well fulfills the aforementioned requirements. A mixture of about 60% by weight of water glass and 40% by weight of talcum is preferably used, which can still be processed well even after a long standing time.

Insbesondere bei der Verwendung von Wasserglas-Talcum-Kitt hat sich eine zweistufige Wärmebehandlung der Wicklung vor der Reaktionsglühung bewährt.Especially when using water glass talcum putty, a two-stage heat treatment of the winding before the reaction annealing has proven itself.

Dabei wird die Wicklung zunächst zum Trocknen des Kitts einer Wärmebehandlung bei einer ersten Temperatur von vorzugsweise 35 bis 40°C und dann zum Aushärten des Kitts einer Wärmebehandlung bei einer zweiten höheren Temperatur, vorzugsweise etwa 100 bis 1200C, unterzogen. Diese zweistufige Wärmebehandlung kann mit der Reaktionsglühung zu einer dreistufigen Wärmebehandlung zusammengefaßt werden.Here, the first winding for drying of the cement to a heat treatment at a first temperature of preferably 35 to 40 ° C and then to the curing of the cement to a heat treatment at a second higher temperature, preferably about 100 to 120 0 C, subjected. This two-stage heat treatment can be combined with reaction annealing to form a three-stage heat treatment.

Neben dem bevorzugten Gemisch aus Wasserglas und Talcum eignen sich als Kitte auch andere Zemente auf mineralischer Basis, soweit sie die bereits erläuterten Anforderungen an den Kitt erfüllen.In addition to the preferred mixture of water glass and talcum, other mineral-based cements are also suitable as putties, provided that they meet the putty requirements already explained.

Einen besonders stabilen Wicklungsaufbau kann man dadurch erhalten, daß auf einen hochtemperaturbeständigen Spulenkörper, beispielsweise aus Edelstahl, zunächst eine Isoliermatte aus hochtemperaturbeständigem Material, beispielsweise eine Glasfasermatte, aufgebracht und mit dem Kitt getränkt wird, anschließend die aufeinanderfolgenden Lagen der Leiterwicklung aufgebracht und jeweils mit dem Kitt bestrichen werden und schließlich die fertige Wicklung mit einer weiteren hochtemperaturbeständigen, ebenfalls mit Kitt zu tränkenden Isoliermatte umgeben und schließlich der Kitt bei erhöhter Temperatur ausgehärtet wird. Zusätzlich können ferner zwischen die einzelnen Lagen der Wicklung weitere hochtemperaturbeständige Isoliermatten eingelegt werden.A particularly stable winding structure can be obtained by first applying an insulating mat made of high-temperature resistant material, for example a glass fiber mat, to a high-temperature-resistant coil former, for example made of stainless steel, and then impregnating it with the putty, then applying the successive layers of the conductor winding and in each case with the putty are coated and finally the finished winding is surrounded by another high-temperature-resistant insulating mat, which is also to be impregnated with putty, and finally the putty is cured at elevated temperature. In addition, further high-temperature-resistant insulating mats can also be inserted between the individual layers of the winding.

Anhand eines Ausführungsbeispiels soll die Erfindung noch näher erläutert werden.The invention will be explained in more detail using an exemplary embodiment.

Zur Herstellung einer Magnetspule mit Nb3Sn als Supraleitermaterial wurde von einem bandförmigen, 1 mm breiten und 0,3 mm dicken Leitervorprodukt aus einer Kupfer-Zinn-Matrix mit 1159 eingelagerten Niob-Filamenten ausgegangen. Zur Isolation war das Leitervorprodukt mit einer Glasfaserumspinnung versehen, auf die eine organische Schlichte aufgetragen war.For the production of a magnetic coil with Nb 3 Sn as the superconductor material, a strip-shaped, 1 mm wide and 0.3 mm thick conductor pre-product made of a copper-tin matrix with 1159 embedded niobium filaments was assumed. For the insulation, the preliminary conductor product was provided with a glass fiber covering on which an organic size was applied.

Als Kitt wurde eine Wasserglas-Talcum-Mischung mit etwa 60 Gewichts-% frischem Wasserglas und etwa 40 Gewichts-% Talcum verwendet. Wenn das Wasserglas vor dem Vermischen mit dem Talcumpulver längere Zeit offen stehen bleibt, wird es dünnflüssiger. Es empfiehlt sich dann, zur Erhöhung der Viskosität des Kitts den Talcumanteil zu erhöhen.A water glass-talcum mixture with about 60% by weight of fresh water glass and about 40% by weight of talc was used as the putty. If the water glass remains open for a long time before mixing with the talcum powder, it becomes thinner. It is then advisable to increase the proportion of talcum to increase the viscosity of the putty.

Der zum Aufwickeln der Spule dienende Spulenkörper bestand aus unmagnetischem Edelstahl und war mit zwei scheibenförmigen Seitenflanschen sowie mit einer zentralen Bohrung von 25 mm Durchmesser versehen. Der innere Wickeldurchmesser betrug 30 mm, der äußere Wickeldurchmesser 50 mm, die Wickellänge 40 mm.The bobbin used to wind the bobbin was made of non-magnetic stainless steel and was equipped with two disk-shaped side flanges and a central bore with a diameter of 25 mm. The inner winding diameter was 30 mm, the outer winding diameter 50 mm, the winding length 40 mm.

Auf den Wickelkern des Spulenkörpers und die Seitenflansche wurden zur Isolation gegen die aufzubringende Wicklung zunächst jeweils 90 µm dick Glasfasermatten aufgelegt und mit Kitt bestrichen. Dann wurde auf die den Wickelkern umgebende Glasfasermatte die erste Wicklungslage aus dem bandförmigen Leitervorprodukt gewickelt und Kitt auf diese Lage aufgetragen. Auf den Kitt wurde dann eine 30 um dicke Glasfasermatte zur Lagenisolation aufgelegt, darauf die zweite Wicklungslage gewickelt und auf diese erneut Kitt aufgetragen. Dies wurde fortgesetzt, bis nach 22 Lagen der äußere Wickeldurchmesser erreicht war. Die letzte Wicklungslage wurde nach Auftragen einer Kittschicht nochmals mit einer Bandage aus mehreren Lagen Glasfasermatten umgeben. Dabei wurde auf jede Lage nochmals Kitt aufgetragen. Insgesamt hatte die so hergestellte Spule 637 Windungen. Die Länge des verarbeiteten Leitervorproduktes betrug 81 m.On the winding core of the bobbin and the side flanges, glass fiber mats with a thickness of 90 µm were placed on top of each other for insulation against the winding to be applied and coated with putty. Then the first winding layer from the strip-shaped conductor pre-product was wound onto the glass fiber mat surrounding the winding core and putty was applied to this layer. A 30 μm thick glass fiber mat for layer insulation was then placed on the putty, the second winding layer was wound thereon and putty applied again. This continued until the outer winding diameter was reached after 22 layers. After the application of a kit layer, the last winding layer was again surrounded with a bandage consisting of several layers of glass fiber mats. Putty was applied to each layer again. The coil produced in this way had a total of 637 turns. The length of the pre-processed conductor was 81 m.

Zur Trocknung des Kitts wurde die Spule dann zunächst einige Stunden lang auf etwa 37°C erhitzt. Dies ist ausreichend, wenn der Wasserdampf beispielsweise durch in den scheibenförmigen Seitenflanschen vorgesehene Löcher oder auf sonstigen Wegen aus der Wicklung entweichen kann. Durch diesen Trocknungsschritt wird das Entstehen von Sprüngen im Kitt beim späteren Aushärten vermieden. Durch eine zweite mehrstündige Wärmebehandlung bei etwa 117 C erhielt der Kitt dann die erforderliche Festigkeit. Nach entsprechender Festlegung der Leiterenden zur späteren Montage der Kontakte wurde die Spule schließlich in eine als Getter dienende Zirkonfolie eingewickelt und etwa zwei Tage lang unter Argon der Reaktionsglühung bei etwa 7000C unterzogen. Nach der Abkühlung wurde die Spule mit Gießharz in einen Schutztrog eingegossen. Anstelle des Gießharzes kann man aber auch einen anorganischen Kitt verwenden.To dry the putty, the coil was first heated to about 37 ° C for a few hours. This is sufficient if the water vapor can escape from the winding, for example through holes provided in the disk-shaped side flanges or in other ways. This drying step prevents cracks from appearing in the putty during subsequent curing. The putty was then given the required strength by a second heat treatment at 117 C for several hours. After appropriate setting of the conductor ends for later assembly of the contacts, the coil was finally wrapped in a serving as a getter and zirconium foil long subjected to about two days under argon, the reaction heat at about 700 0 C. After cooling, the coil was cast with resin in a protective trough. Instead of the casting resin, an inorganic putty can also be used.

Die fertige Spule wurde dann in die Bohrung eines größeren Supraleitungsmagneten eingesetzt und in dessen Magnetfeld getestet. Bei einer durch die äußere Spule erzeugten magnetischen Induktion von 7 Tesla wurde in der Bohrung der inneren Spule eine magnetische Induktion von 9 Tesla erreicht. Ein Trainingsverhalten der nach dem anmeldungsgemäßen Verfahren hergestellten Spule konnte nicht festgestellt werden. In einem Außenfeld von 2 Tesla betrug die kritische Stromdichte des Nb3Sn-Leiters der inneren Spule etwa 90 000 A/cm2, in einem Außenfeld von 7 Tesla etwa 45 000 A/cm2.The finished coil was then inserted into the bore of a larger superconducting magnet and tested in its magnetic field. With a magnetic induction of 7 Tesla generated by the outer coil, a magnetic inductor was found in the bore of the inner coil tion of 9 Tesla reached. A training behavior of the coil produced according to the method according to the application could not be determined. In an external field of 2 Tesla, the critical current density was of Nb3Sn conductor of the inner coil about 90 000 A / cm 2, in an external field of 7 Tesla about 45 000 A / cm 2.

Das anmeldungsgemäße Verfahren bewährte sich in gleicher Weise bei größeren Spulen von bislang bis zu 177 mm Wicklungslänge und 119 mm äußerem Wicklungsdurchmesser. Dabei konnte die Packungsdichte der Wicklung durch Weglassen der Isoliermatten zwischen den einzelnen Wicklungslagen noch weiter erhöht werden. Man trägt in diesem Fall auf jede Wicklungslage Kitt auf und wickelt die nächste Wicklungslage unmittelbar darüber. Allerdings empfiehlt sich das Weglassen der Lagenisolation nur, wenn die eigentliche Leiterisolation aus einer Faserumspinnung besteht. Sind die Leitervorprodukte zur Isolation beispielsweise mit Glasfaser lediglich umwickelt, so sollten die Isoliermatten zur Isolation der Wicklungslagen gegeneinander beibehalten werden. Wenn insbesondere bei dickeren Isoliermatten der auf die vorhergehende Wicklungslage aufgetragene Kitt nicht zur Durchtränkung der Isoliermatte ausreicht, wird auf diese zweckmäßigerweise vor dem Aufbringen der nächsten Wicklungslage nochmals Kitt aufgetragen. Auch bei Verwendung von Glasfaserumspinnungen oder -umwicklungen, die mit organischen Bindemitteln, beispielsweise mit Polyvinylbutyral, getränkt sind, ergaben sich beim anmeldungsgemäßen Verfahren keine Schwierigkeiten. Offenbar wird der bei der thermischen Zersetzung des Polyvinylbutyrals während des Aufheizens der Wicklung zur Reaktionsglühung freigesetzte Kohlenstoff durch den Kitt an der Ausbildung leitender Brücken zwischen den Windungen gehindert. Kohlenstoff-freisetzende Substanzen brauchen also beim Wickeln der Spule nicht oder zumindest nicht vollständig vor der Reaktionsglühung entfernt zu werden.The method according to the application has proven itself in the same way for larger coils of up to 177 mm winding length and 119 mm outer winding diameter. The packing density of the winding could be increased even further by omitting the insulating mats between the individual winding layers. In this case, putty is applied to each winding layer and the next winding layer is wound directly over it. However, omitting the layer insulation is only recommended if the actual conductor insulation consists of a fiber wound. If the pre-products for insulation are only wrapped with glass fiber, for example, the insulating mats should be retained to insulate the winding layers from each other. If, especially in the case of thicker insulating mats, the putty applied to the previous winding layer is not sufficient to impregnate the insulating mat, putty is expediently applied to it again before the next winding layer is applied. Even when using glass fiber wrapping or wrapping impregnated with organic binders, for example with polyvinyl butyral, there were no difficulties in the process according to the application. Apparently, the thermal decomposition of the polyvinyl butyral during the Heating of the coil for reaction annealing released carbon prevented by the putty from forming conductive bridges between the turns. Carbon-releasing substances therefore do not need to be removed or at least not completely removed before the reaction annealing when winding the coil.

Claims (6)

1. Verfahren zum Fixieren der Windungen einer supraleitenden Magnetwicklung, die zunächst aus Leitervorprodukten aufgebaut wird und bei der die supraleitenden Eigenschaften durch eine Reaktionsglühung der fertigen Wicklung erzeugt werden, dadurch gekennzeichnet , daß beim Wickeln der Leitervorprodukte ein Kitt aus isolierendem anorganischem Material, der im verfestigten Zustand bei den zur Herbeiführung des supraleitenden Zustandes erforderlichen tiefen Temperatur und bei den zur Reaktionsglühung erforderlichen hohen Temperaturen beständig ist, in die Wicklung eingebracht und nach Fertigstellung der Wicklung vor Durchführung der Reaktionsglühung verfestigt wird.1. A method for fixing the turns of a superconducting magnetic winding, which is initially built up from preliminary conductor products and in which the superconducting properties are produced by reaction annealing of the finished winding, characterized in that when the preliminary conductor products are wound, a putty made of insulating inorganic material which solidifies in the State is stable at the low temperature required to bring about the superconducting state and at the high temperatures required for the reaction annealing, is introduced into the winding and, after the winding has been completed, is solidified before the reaction annealing is carried out. 2. Verfahren nach Anspruch 1, dadurch gekennzeichnet , daß als Kitt ein Gemisch aus Wasserglas und Talcum verwendet wird.2. The method according to claim 1, characterized in that a mixture of water glass and talcum is used as the putty. 3. Verfahren nach Anspruch 2, dadurch gekennzeichnet , daß ein Gemisch aus etwa 60 Gewichts-% Wasserglas und etwa 40 Gewichts-% Talcum verwendet wird.3. The method according to claim 2, characterized in that a mixture of about 60% by weight of water glass and about 40% by weight of talc is used. 4. Verfahren nach einem der Ansprüche 1 bis 3, d a - durch gekennzeichnet, daß die Wicklung vor der Reaktionsglühung zunächst zum Trocknen des Kitts einer Wärmebehandlung bei einer ersten Temperatur und dann zum Aushärten des Kitts einer weiteren Wärmebehandlung bei einer zweiten höheren Temperatur unterzogen wird.4. The method according to any one of claims 1 to 3, d a - characterized in that the winding is subjected to a heat treatment at a first temperature and then to a further heat treatment at a second higher temperature for curing the putty before the reaction annealing. 5. Verfahren nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet , daß auf einen hochtemperaturbeständigen Spulenkörper zunächst eine Isoliermatte aus hochtemperaturbeständigem Material aufgebracht und dann mit dem Kitt getränkt wird, anschließend die aufeinanderfolgenden Lagen der Leiterwicklung aufgebracht und jeweils mit dem Kitt bestrichen werden und schließlich die fertige Wicklung mit einer weiteren hochtemperaturbeständigen, mit Kitt zu tränkenden Isoliermatte umgeben und schließlich der Kitt bei erhöhter Temperatur ausgehärtet wird.5. The method according to any one of claims 1 to 4, characterized in that an insulating mat made of high-temperature-resistant material is first applied to a high-temperature bobbin and then soaked with the putty, then the successive layers of the conductor winding are applied and each coated with the putty and finally surround the finished winding with another high-temperature-resistant insulating mat to be soaked with putty and finally the putty is cured at elevated temperature. 6. Verfahren nach Anspruch 5, dadurch gekennzeichnet , daß zusätzlich weitere hochtemperaturbeständige Isoliermatten zwischen die einzelnen Lagen der Wicklung eingelegt werden.6. The method according to claim 5, characterized in that additional high temperature resistant insulating mats are inserted between the individual layers of the winding.
EP81107230A 1980-09-27 1981-09-14 Method of fixing the windings of a superconductive magnet coil Expired EP0048880B1 (en)

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DE3036536 1980-09-27
DE19803036536 DE3036536A1 (en) 1980-09-27 1980-09-27 METHOD FOR FIXING THE WRAPS OF A SUPRAL-CONDUCTING MAGNETIC WINDING

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0353433A1 (en) * 1988-07-14 1990-02-07 Asea Brown Boveri Ag Superconducting magnet winding, and process for manufacturing the same
US5140292A (en) * 1991-02-19 1992-08-18 Lucas Schaevitz Inc. Electrical coil with overlying vitrified glass winding and method

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Publication number Priority date Publication date Assignee Title
US3429032A (en) * 1963-10-15 1969-02-25 Gen Electric Method of making superconductors containing flux traps
DE2217718A1 (en) * 1971-04-16 1972-11-02 Union Carbide Corp., New York, N.Y. (V.StA.) Superconducting coils and a method for their manufacture
EP0014915A1 (en) * 1979-02-23 1980-09-03 Siemens Aktiengesellschaft Superconducting magnet coil with a plurality of windings

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3429032A (en) * 1963-10-15 1969-02-25 Gen Electric Method of making superconductors containing flux traps
DE2217718A1 (en) * 1971-04-16 1972-11-02 Union Carbide Corp., New York, N.Y. (V.StA.) Superconducting coils and a method for their manufacture
US3733692A (en) * 1971-04-16 1973-05-22 Union Carbide Corp Method of fabricating a superconducting coils
EP0014915A1 (en) * 1979-02-23 1980-09-03 Siemens Aktiengesellschaft Superconducting magnet coil with a plurality of windings

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0353433A1 (en) * 1988-07-14 1990-02-07 Asea Brown Boveri Ag Superconducting magnet winding, and process for manufacturing the same
CH678465A5 (en) * 1988-07-14 1991-09-13 Asea Brown Boveri
US5140292A (en) * 1991-02-19 1992-08-18 Lucas Schaevitz Inc. Electrical coil with overlying vitrified glass winding and method

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DE3036536A1 (en) 1982-05-13
DE3166043D1 (en) 1984-10-18
EP0048880B1 (en) 1984-09-12

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