US781338A - Method of uniting the two components of a thermo-electric couple. - Google Patents

Method of uniting the two components of a thermo-electric couple. Download PDF

Info

Publication number
US781338A
US781338A US23079104A US1904230791A US781338A US 781338 A US781338 A US 781338A US 23079104 A US23079104 A US 23079104A US 1904230791 A US1904230791 A US 1904230791A US 781338 A US781338 A US 781338A
Authority
US
United States
Prior art keywords
antimony
alloy
components
component
thermo
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US23079104A
Inventor
Albrecht Heil
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
A Wolf Jr & Co
Wolf Jr & Co A
Original Assignee
Wolf Jr & Co A
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Wolf Jr & Co A filed Critical Wolf Jr & Co A
Priority to US23079104A priority Critical patent/US781338A/en
Application granted granted Critical
Publication of US781338A publication Critical patent/US781338A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23KSOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
    • B23K31/00Processes relevant to this subclass, specially adapted for particular articles or purposes, but not covered by only one of the preceding main groups
    • B23K31/02Processes relevant to this subclass, specially adapted for particular articles or purposes, but not covered by only one of the preceding main groups relating to soldering or welding

Definitions

  • a hot solder could also not 5' be used for the reason that its melting-point I is above that of the'antimony or the antimony alloy of which the one component of the couple is usually made. It is also not possible to unite the two parts by mechanical compression by reason of the brittleness of the antimony or antimony alloy, which is'nearly equal to that of glass, and also by reason of the difference in the coefficients of expansion of the two components.
  • the brittle antimony alloy is not capable of sustaining a great pressure.
  • My invention relates me new method of uniting the two components of a thermoelectric couple made, respectively, of antimony or antimony alloy and the so-called constantan (hereinafter to be referred to) or any other metal or alloy difiicult of fusion, whereby the two components are united intimately and in a reliable manner, so that for a thermmelectrio battery formed of such couples the highest possibleuseful effect can be secured.
  • the new method therefore consists in bringing the end or the whole of the component made of constantan or stubborn metal or alloy, as the case may be, up to about the melting-point of the antimony or antimony alloy and in rubbing a piecerof antimony or antimony alloy strongly,uniformly, and completely on the end or contact'face of the first component until a uniform, complete, and adhering lining of the antimony or antimony alloy is formed thereon.
  • This lining need not be very thick. vIt may have the thickness of a fracture of a millimeter; but care should be taken that this lining should completely cover the end or contactface of the first part-without leaving any defective spot.
  • the first component so lined is again brought up to the same heat as before and pressed against the second component, when the liquid layer of antimony or antimony alloy on the first component will layer of oxid that may have been formed on the second component will be removed by tact-face.
  • the material of the second component forms itself the solder for uniting the two components, and itis evident that the union so formed will be the best that can be procured at all, and the highest allowable potential difierence will be obtained between the two components of the thermo-electric couple.
  • the second component may be brought up to a convenient heat to facilitate its union with the first component during the soldering operation.
  • the end or contact-face of the component of stubborn metal or alloy lined with the antimony or antimony alloy may also be surrounded with molten antimony or antimony alloy, whereby the other component is notonly formed, but also at the same time united with the former component.
  • the antimony or antimony alloy of the second component will come into contact with the same metal or alloy on the first component, of course no film or layer of oXid will be formed on the con-
  • Constantan employed above means usually an alloy offifty per cent. copfifty-eight per cent. copper, forty-one per cent. nickel, and one per cent. manganese, or a similar alloy.
  • thermo-electric couple made of a metal or antimony alloy respectively, which consists in first heating the stubborn component up to about the melting-point of the material of the second component, next rubbing strongly a piece of this material on the contact-face of the first component, until a uniform and complete adhering lining of the antimony or an timony alloy without any film or layer of oxid is formed, afterward intimately uniting the two components by heat.
  • thermo-electric couple made of a metal or alloy difficult of fusion and of antimony or antimony alloy respectively, which consists in first heating the stubborn component up to about the melting-point of the material of the second component, next rubbing a piece of this material on the contact-face of the first com'ponent strongly, uniformly and completely, until a uniform and complete adhering lining'of the antimony or antimony alloy without any film or layer of oxid is formed, afterward reheating the first component up to the same temperature and also the second component nearly so, then pressing botlicomponents in their contact-face on each other while removing any film or layer of oxid that may have formed, whereby the two components are intimately united.

Description

ihsrran STATES Patented January 31, 1905.
PAT NT Onnreno ALBRECHT HEIL, OF FRANKFORTON-THE-h IAIN, GERMANY, ASSIGNOR TO THE FIRM OF A. WOLF, GERMANY. I
J R, & CO., OF FRANKFORT ON THE MAIN,
SPECIFICATION forming part of Letters Patent No. 781,338, dated January 31, 1905.
Application filed October 31,1904. Serial No. 230,791.
.To aZv/uhom it may concern:
Be it known that I, ALBRECHT HEIL, a subject of the German Emperor, and a resident of Frankfort-on-the-Main, Germany, have in 5 vented certain new and useful Improvementsin Methods of Uniting the Two Oomponents of Thermo Electric Couples, of which the following is a specification.
As is well known, the two components of a thermo-electric couple are made of two different metals or alloys and united in their con- =tact-face by soldering. This manner of unit ing the two parts, however, presents disadvantages which prevent thethermo-electric r 5 battery formed of such couples from attaining a high useful etfect. hen using a soft solder, it is obviously not possible to bring the components of the tl'iermo-electric couple above a temperature near the melting-point of the solder, and as this point is very low it is impossible to obtain a reasonably high useful effectjof the thermo-electric battery with the aid of high temperatures in such thermoelectric couples. A hot solder could also not 5' be used for the reason that its melting-point I is above that of the'antimony or the antimony alloy of which the one component of the couple is usually made. It is also not possible to unite the two parts by mechanical compression by reason of the brittleness of the antimony or antimony alloy, which is'nearly equal to that of glass, and also by reason of the difference in the coefficients of expansion of the two components. The brittle antimony alloy is not capable of sustaining a great pressure. Owing to the difierence in the expansion of the two components, the great heat, during the working of the thermo-electric battery would within a short time cause 40 the formation ofa layer of oxid' between the .two components, which layer of oXid would reduce the useful effect of the battery quite considerably. 1 layer or film of oxid could also not be avoided by casting the antimony alloy around the stubborn componentmade of metal more ,difieult to fuse, for during the casting a considerable layer of oxid would be in any- The formation of the.
case formed between the two metals or alloys and render the union inadequate.
My invention relates me new method of uniting the two components of a thermoelectric couple made, respectively, of antimony or antimony alloy and the so-called constantan (hereinafter to be referred to) or any other metal or alloy difiicult of fusion, whereby the two components are united intimately and in a reliable manner, so that for a thermmelectrio battery formed of such couples the highest possibleuseful effect can be secured.
' I have discovered that when the stubborn metal or alloy is heated up to nearly a red heat and when a piece of antimony or antimony alloy is strongly rubbed on the hot stubborn metal or alloy particles of the antimony or antimony alloy will not only melt and unite with the stubborn metal or alloy,
but also reduce any oxid during the rubbing operation, so that no film orlayer of oxid can be produced in any way between the stubborn metal or alloy and the lining of an" timony or antimony alloy.
The new method therefore consists in bringing the end or the whole of the component made of constantan or stubborn metal or alloy, as the case may be, up to about the melting-point of the antimony or antimony alloy and in rubbing a piecerof antimony or antimony alloy strongly,uniformly, and completely on the end or contact'face of the first component until a uniform, complete, and adhering lining of the antimony or antimony alloy is formed thereon. This lining need not be very thick. vIt may have the thickness of a fracture of a millimeter; but care should be taken that this lining should completely cover the end or contactface of the first part-without leaving any defective spot. Then the first component so lined is again brought up to the same heat as before and pressed against the second component, when the liquid layer of antimony or antimony alloy on the first component will layer of oxid that may have been formed on the second component will be removed by tact-face.
or alloy diffi'cult of fusion and of antimony pushing or squeezing out or otherwise. Thus l the material of the second component forms itself the solder for uniting the two components, and itis evident that the union so formed will be the best that can be procured at all, and the highest allowable potential difierence will be obtained between the two components of the thermo-electric couple. Of course the second component may be brought up to a convenient heat to facilitate its union with the first component during the soldering operation. The end or contact-face of the component of stubborn metal or alloy lined with the antimony or antimony alloy may also be surrounded with molten antimony or antimony alloy, whereby the other component is notonly formed, but also at the same time united with the former component. As the antimony or antimony alloy of the second component will come into contact with the same metal or alloy on the first component, of course no film or layer of oXid will be formed on the con- The term "constantan employed above means usually an alloy offifty per cent. copfifty-eight per cent. copper, forty-one per cent. nickel, and one per cent. manganese, or a similar alloy. I
Whatv I claim as my invention, and desire to secure by Letters Patent, is
1. A method of uniting the two components of a thermo-electric couple made of a metal or antimony alloy respectively, which consists in first heating the stubborn component up to about the melting-point of the material of the second component, next rubbing strongly a piece of this material on the contact-face of the first component, until a uniform and complete adhering lining of the antimony or an timony alloy without any film or layer of oxid is formed, afterward intimately uniting the two components by heat.
2. A method of uniting the two components of a thermo-electric couple made of a metal or alloy difficult of fusion and of antimony or antimony alloy respectively, which consists in first heating the stubborn component up to about the melting-point of the material of the second component, next rubbing a piece of this material on the contact-face of the first com'ponent strongly, uniformly and completely, until a uniform and complete adhering lining'of the antimony or antimony alloy without any film or layer of oxid is formed, afterward reheating the first component up to the same temperature and also the second component nearly so, then pressing botlicomponents in their contact-face on each other while removing any film or layer of oxid that may have formed, whereby the two components are intimately united.
In testimony whereof I havesigned my name to this specification in the presence of two subscribing witnesses.
ALBRECHT HEIL.
\Vitnesses:
FRANZ HAssLAcnnR, 'ERWIN DIPPEL.
US23079104A 1904-10-31 1904-10-31 Method of uniting the two components of a thermo-electric couple. Expired - Lifetime US781338A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US23079104A US781338A (en) 1904-10-31 1904-10-31 Method of uniting the two components of a thermo-electric couple.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US23079104A US781338A (en) 1904-10-31 1904-10-31 Method of uniting the two components of a thermo-electric couple.

Publications (1)

Publication Number Publication Date
US781338A true US781338A (en) 1905-01-31

Family

ID=2849822

Family Applications (1)

Application Number Title Priority Date Filing Date
US23079104A Expired - Lifetime US781338A (en) 1904-10-31 1904-10-31 Method of uniting the two components of a thermo-electric couple.

Country Status (1)

Country Link
US (1) US781338A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2824365A (en) * 1953-11-18 1958-02-25 George F Erickson Soldering of aluminum base metals
US2987816A (en) * 1956-12-10 1961-06-13 Robert A Noland Bonding aluminum metals

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2824365A (en) * 1953-11-18 1958-02-25 George F Erickson Soldering of aluminum base metals
US2987816A (en) * 1956-12-10 1961-06-13 Robert A Noland Bonding aluminum metals

Similar Documents

Publication Publication Date Title
US1037999A (en) Article of alumina and method of making same.
US3065533A (en) Method of making ceramic-metal seals
KR920019467A (en) Bonding part of Ni-Ti alloy with different metals and bonding method
US781338A (en) Method of uniting the two components of a thermo-electric couple.
JPS5948714B2 (en) Method of pressure welding metal base materials using eutectic reaction
US1155427A (en) Contact bodies of tungsten.
US1162340A (en) Method of uniting metals.
JP2011140049A (en) Method and apparatus for joining copper and aluminum
US1155426A (en) Method of making contact bodies of tungsten.
US3693243A (en) Method and apparatus for cladding metals
US1281126A (en) Solder or the like and process for preparing the same.
US440847A (en) Island
US1751489A (en) Method of making bimetallic strips for thermostats
US1819272A (en) Bearing
US1458274A (en) Welding process
US852017A (en) Flux.
US1728772A (en) Solder
SU716748A1 (en) Method of soldering elements made of unsimilar metals
USRE21495E (en) Bearing
US1145307A (en) Aluminum solder.
US2278592A (en) Contact element
US480392A (en) Method of electric soldering
US1699761A (en) Solder
US707470A (en) Solder for soldering aluminium.
US1950214A (en) Method of soldering metal objects