DE1665087A1 - Superconducting cable and process for its manufacture - Google Patents

Description

Maschinenfabrik Oerlikon, Zürieh-Oerlikon (Switzerland).

Superconducting cable and process for its manufacture .

The invention relates to a superconducting cable with a superconducting core and a contact body surrounding the core and a method for producing such a cable.

In a superconductor are known for the relevant Material in characteristic and critical field areas

Field strength or current strength changes made , quantized liquid and river creeps, The losses generated in this way lead to a local increase in temperature. If the critical temperature of the superconductor is exceeded at one point of the conductor due to an accumulation of this process, a normally conductive zone suddenly forms. The current heat generated in this zone and the poor radial heat conduction cause the normally conducting zone to spread rapidly in both directions along the superconductor. If this phenomenon occurs in a superconducting winding, the entire magnetic energy released in it is largely converted into heat in the coil, which leads to a loss of liquid helium. In addition, high, undesirable voltages are generated in the winding. A superconductor, in which special measures prevent the normally conducting zone from spreading significantly, is called a stabilized superconductor. Stabilization can be achieved through good cooling of the superconductor and through

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Use of a normally conductive contact material. This material, aas electrically parallel to the superconductor geücru acts as an electrical shunt over the nornjuileiteuu Zone and relieves the sneeze from the electricity. A major disadvantage of using soicnen staDili ^ ierte superconducting Kaoeln for the construction of windings best aarin, aass by adding contact material to the Fülifaictor Winding is deteriorated.

A well-known stabilized superconductor or superconducting cable consists of a circular core with a number of copper-clad superconductors wired together, which, impregnated with Inaiurc, is surrounded by a second cabling made of parallel copper wires, also impregnated with indium. The second connection made of copper wires, also contact bodies

called, serves here to extract heat from the superconducting Core and keeping its temperature low; it also works as an electrical shunt material. The indium impregnation serves as a thermally and electrically conductive connection between the superconductors in the core and between the core and the contact body. The impregnation also serves to mechanically bind the cable elements and is therefore probably called binding metal.

Such a cable has several disadvantages. The circular one Cross-section gives the cable an unfavorable area-volume ratio, so that the cooling surface of a cable as well as the fill factor of a winding have a minimum value. As a result of limited tensile strength of the copper wires, only a small contact pressure between the copper wires and the super-

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BATH ORIGINAL

Ladders are created, so with the given small contact points before all lines for contact points for thermal and thermal energy
electrical stability is large: there are inconsistent shapes in the wire gradients of the copper wires compared to those of the superconductors cause interruptions ir, aen contact lines, which are filled with thick layers of inaiurn, which conducts thermally and electrically smoothly axs t copper. The result is also a high thermal and electrical resistance, during the impregnation of the second cooling inucs aas indium penetrate through the linear contact points between the copper wires, if the copper wires make close contact, the penetration is reduced and cavities can be avoided remain under aev second sale, aie wieaeruri »one
deteriorated thermal, ur.u eictric conductivity or less. When the bend is bent, the indium separating layers on the outside are pitted, which means that the conductive layers can cause them to have an unfavorable effect on the thermal and electrical resistance.

The invention aims to reduce these components.
The core of a superconducting Kaoel consists of at least one axially parallel superconductor,
while the contact body is formed by an inter alia
Core folded edge !.

The subject of the invention has several advantages

construction
by XaaarfeR «kiiaÄ and manufacturing process. The contact surfaces between the superconductors and the contact body are not
interrupted. The contact areas and contact prints are large.

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There are only thin and homogeneous layers of the binding metal between the superconductors and the contact body; whose

-Its thermal and electrical resistance is low. As a result of pressing, the cavities are completely filled with binding metal. This also improves the electrical and thermal contact. Due to the tape shape, the cable has a favorable area-volume ratio and the heat exchange area is large. When the cable is used in the construction of superconducting windings, there are further advantages. The push-'spunnungen occurring in the 'binder between superconductors and contact body when ... bending of the cable

because
the small cable diameter is small and the risk of sliding layers forming in the binder is low. The fill factor of a winding is very favorable. The tape has a large moment of inertia against the axial components of the magnetic forces in the winding; as a result, the expenditure on support means can be small.

The invention is illustrated with reference to the drawings Exemplary embodiments are explained in more detail below.

The superconducting cable 1 consists of a core 2 with a number of superconductors 3 arranged axially parallel and surrounded by a jacket 4 serving as a contact body. The superconductors are provided with a 5 »plating, for example made of copper or silver. The jacket is formed from a band of a pure, soft, thermally and electrically well conductive material, for example copper or silver, which is folded around the core. The cable 6 of the jacket can remain open as in FIG. i are shown or closed / e.g. by welding a or soldering. The one between the superconductors and the jacket

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BATH ORIGINAL

The permanent tree is filled with a binding metal 7 '. That • Binding metal, which consists of a thermally and electrically

A moderately good conductive material, e.g. indium, tin or you * one Alloy., - ■ ".

X exists, is used for thermal and electrical. *

watch contact between the superconductors and the jacket promote, and between these a mechanically "'-sufficiently good connection to manufacture. Due to the application of pressure and possibly heat in the manufacturing process of the cable, ■ an inner profile 8 emerged in the jacket, so that the heat exchange surface between superconductors and jacket is big. Most of the binding agent is also lost due to the pressure has been displaced from these contact points into the cavities, so that the remaining pads 9 very are thin and hardly affect the heat transfer. The dimensions of the jacket will be the desired ratio between optimally adapted to the cross-sectional area of the jacket and that of the superconductors. If necessary, a second coat can be used around the first one. The second coat can then enclose the first one so that its seam does not collapse with the seam of the first coat. In this construction, too, a binding metal can be inserted between the two jackets.

For the purpose of enlarging the cross-section of the Koritaktkö'rpers One or more contact bodies can be assigned to the superconductors of the core. In Fig. 2 there is such a contact body in the form of a wire 10, for example made of copper or silver, arranged between two superconductors. For improvement the mechanical properties of the cable, especially to increase the tensile strength, can be one or more of the superconductors

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several reinforcement bodies, e.g. in the form of a wire made of anti-, magnetic steel.

Fig. 3 shows an AaDeI with a core consisting of two Layers 11 and 12 of superconductors. Over coat XjJ is the one Shape of the Δ-ernes adapted. The jacket 14 of the KaDeIs in FIG. 4 < is profiled to enlarge the heat exchange surface. It can be advantageous to move the seam of the jacket laterally as shown in FIG. 5. Fig. 6 shows a cable on which the jacket is closed by means of an overlap seam 15. The seam can subsequently be strengthened, e.g. by roll welding will. It is advantageous here to move the contact or reinforcement body 16 at the location of the seam so that the mechanical and thermal loads are largely absorbed by this body when welding the seam. Fig. 7 shows a cable in which aie overlap seam 17 lies laterally. Here, too, there is a contact or instead of the seam a reinforcement body 18.

It can be advantageous in terms of production if the jacket consists of two parts 19 and 20 (FIG. 8). Both parts of the jacket are connected to one another on the sides by the overlapping seams 21 and 22. As can be seen from Fig. 8, the overlap seam 21 is on top, the overlap seam 22 is below, se that two recesses 25 or. 24 arise. This has the; Advantage that, for a coil the üeberlappungsnaht which is a '{turn in the recess of the preceding winding; (Fig. 9). It is made this way in terms of mechanical

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BATH ORIGINAL

A very strong and compact coil is formed under stress.

For certain applications it can be advantageous to eat Cross-section of the cube to make a square »The ivern contains four superconductors arranged in the corners of a square. , Of course, the core can have a square cross-section can also be formed by more than four superconductors.

10 shows a cable, the core of which is passed through a single superconductor 25 with a regular cross-section. Of the Superconductor carries a cladding 26 and is uneven by one, Binding metal 27 * The core of the Kaöels of Fig.Ii contains several rectangular superconductors 28, which are arranged in pairs next to each other and in two layers are arranged on top of each other »Jeaer superconductors has a copper plating and all superconductors are from surrounded by a binding metal 30, for the execution farm of The same observations apply, of course, to Figures 10 and 11 of the fiantela, as shown for the other embodiments * / "■". ■ "" ■■■■ '". ■" - ■ "■" ■■ "

Am possible method for producing aes described superconducting cable runs as follows (Fig. 13):

A Banct 31 of suitable dimensions is cleaned and with a layer 32 (Fig.13a) made of e.g. indium. Bas coated At A, the band becomes one, essentially U-shaped Profile (Fig. 13b) deformed; this can be done by rolling 33 or by pulling. A number also cleaned and copper clad superconductor 34 clad with indium «Ei B in the desired" arrangement, e.g. on one level next to each other, lying (Fig.13c), in paraxial alignment in aas U- & profile introduced. At.C the U-profile is

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curtain, for example by means of the rollers 35 and 6 (Fig.13d) geüchlouaen at D the resulting cable is compressed, for example by means of a roller 37 with simultaneous supply of heat by means of a heating coil 38 (Fig.l3e). The pressure is chosen so high that the jacket is partially deformed, so that an inner profile of the edge is created. The heating output is regulated in such a way that the melting point of the indium is safely reached and the liquid J-ndrum is pressed into the cavities. By similarly profiling the roller 37, the scantling can be profiled on the outside at the same time.

As is known , the superconducting properties of a superconductor can be improved by a thermal treatment at a temperature that is dependent on the material. This treatment can either be carried out before the individual superconductors are inserted or during the annealing process or after the annealing process.

The binding metal can instead of distorting, - when inserting aer. Superconductors are introduced into the dumbbell, e.g. in more fluid or wire-like shape. It can also creep in retrospect are through filling openings 39 (Fig * l2), which to aiesfem Purposes are shown in the coat at regular intervals. . .

The cable can be sealed with electrical insulation versenen weraen. ,

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BADORfGlMAL

Claims (6)

/ * Superconducting cable with a superconducting core and one the contact body surrounding the core, characterized in that the core consists of at least one axially parallel superconductor exists and the contact body is formed by a scantling folded around the core. %. Kaoel Jiach claim <£, characterized in that the superconductors are arranged in one plane. £ t cable according to claim- ^, daaureh gekexinzeich that the Superconductors arranged in layers sina. Jl. Cable according to claim ^, characterized in that all superconductors have a circular cross-section %. Cable according to patent claim ^, characterized in that the core contains one or more superconductors of rectangular cross-section. . ,. .- ■ - "-... 6. Cables according to the -ife ^ e ^ Shspruchen 1-4, where indicated that the superconductors are metal-plated. &. Cable according to claims 1-6, characterized · that the superconductors with a thermally and electrically conductive one Binding metal are coated.,. . - ·: y.Kaoel according to patent claim -J and one of the final claims 1-e-, thereby. .:; ekennzeichnet that the core contains one or more .therraiscne una electrical conductor as a contact body · - ■ - '. Q. Cable according to patent claim-ί and one of the fe ^ eap claims l- $ ~, characterized in that the core contains one or more mechanical reinforcement bodies. .Kabel according to claim ^ ^»u nd one of Snnsprüche ~ 1 - characterized Qy that the * - - *> .-:. :: - ^. 00 9887/0412 _ba0 The seam of the jacket runs parallel to the axis and essentially to the center of the XaDeIs. "· '"'"■ - ^{:: iw} ^ · ^ ff ^icr 1j i &. Cable according to the independent tests Jf and ^, characterized in that there is a contact body in place of the seam. -'- "■ nd one aer lJL.Kabel according to claim ΐΡί * 'characterized; that The seam of the mantle runs parallel to and to the side of the kerna. 9 / Jt lä.Kaoel after aen Jjntfrr-ffnsprüche 6 and ± ± -, characterized by that a reinforcement body is oefinuet in place of an egg. ■ _ Una an em aer ^ lit.KaDei according to claim f} ~, characterized by the fact that the edge seam is closed by welding or soldering. . una one aer. Wft £ eg /? Ns pr-Üehe l-% g .Kabel according to patent claim ^ _n characterized by the fact that the jacket seam is an overlapping seam that is strengthened by roll or spot welding. t_u a na m Ua the X ^ e ^ n Sp rüche h i i'dh 1- ^ t 1 $ .Cable according to patent claim • iv'ciadürch denotes that the Two sheaths are attached to one side of the core Parts are made, each flanged on an opposite side and the flanging of one part is solidified with the non-flanged side of the other part. _t and one de r fe ^ er & nsprüche 1-16 / 11 [.KaOeI according to patent claims conductive binder is carried out. »^. A aer_ m ¥ B4 "e4nsprüche 1-3 ^ 6, 'wherein l ^ .Kaoel according to claim Ί /' and in that" aer Xar.xel with filling openings for a bonding metal vetiis _f is eheri. . and one s of the rßns fractions ' ^J ± -jJf, " lfl.Kaael according to patent claim-i _v characterized by. ,,. g ^ -ss aas Material of the, sheath made of an electrically and thermally tenden JKater ^ al pesteht. " ₅ . fs "■ ^ and one of the fans claims l-3r8 >. Cable according to claim J [Y ₁ characterized in that the 009887 / O ₄₁₂ - IJ. - «\ Antel is profiled on the inside. 2O.KuoeI according to claim 1 ', auuui'cxr characterized, uuss der Äantel profiled on the outside ii-t. ^ 4 i_una an aer '& τήπττβ.ηΐ: ·. riuive 1— ^ € kX.Kaoei according to patent claims, characterized in that the outer jacket is provided with electrical insulation. —S % Z, Verfahren; "* for the filling of a superconductive j \ auels according to Patentani-pruOn -%, daaurcn marked that a Gand-shaped contact tutuary to a u. I: r. Vres-entliv-'nen u-furinigen profile vei'i'oi 'is.t is, aasö aie superconductor acnsparalxei in from profile is drawn, aass "aas profile over aie ouuralt.-ite is closed and aasa aas resulting aaoei is pressed .. . Method of patent claim 14, characterized in that the contact material v ^ r - deä deformation ¹ wiret with a binary means. - <* ■ * ■ ■ ■ ■■. '"... ■ 2JT ₁ method is marked with patent claim M, aaüurcn marked, aaas the superconductors are transformed with a binding metal before being introduced. 23 -% L, method according to Patentahspruöh-ΐΐ-, characterized in that the sighting of the profile oil takes place in a crimping process. "- ■■■ · ■ - M. . Method according to claim Si, dadui'ch characterized that The closure of the profile takes place in a second process. Z.%. A method riaeh Patentänsprueh ΐί _i geKennzeicnnet by aass oeim presses the cable v.ird developed such üruck that the contact material wire partially plastically deforxiert 009887/0412 and sufficiently large areas of contact with the superconductors emerge. Z3. Method according to patent claim JT, characterized in that the pressing of the chewing egg takes place with the supply of heat. Method according to dependent claim 4, characterized in that at least enough heat is supplied for the binder to reach the melting point. . Method according to claim K, characterized in that _fc a ßinociaetiill Jä & sxiiUi & efijfctoaiLl is filled in before closing the Kanteis aririV. ' Method according to claim ii, characterized in that a XiX * Binding metal through filling openings in the iiantel in the cable is introduced. .23 33 * 46.Method according to claim H, characterized in that the cable is thermally treated after the pressing. · ' ren according to claim-Ji, characterized in that the Kaoel is thermally treated during pressing. 353 * 2nd method according to claim H, characterized in that the superconductors are thermally treated before being inserted. ^ ASCKINSIiPABRIK OERLIKON 3 / V 009887/04 12 Blank page