US1034949A - Producing metal filaments. - Google Patents

Producing metal filaments. Download PDF

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Publication number
US1034949A
US1034949A US31600406A US1906316004A US1034949A US 1034949 A US1034949 A US 1034949A US 31600406 A US31600406 A US 31600406A US 1906316004 A US1906316004 A US 1906316004A US 1034949 A US1034949 A US 1034949A
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metal
refractory
ductile
filaments
metals
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US31600406A
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William C Arsem
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General Electric Co
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General Electric Co
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C1/00Making non-ferrous alloys
    • C22C1/04Making non-ferrous alloys by powder metallurgy
    • C22C1/045Alloys based on refractory metals

Definitions

  • This invention relates to the manufacture of incandescing conductors such as aroused in incandescent lamps, resistance furnaces and similar apparatus.
  • It comprises a process forthe manufacture of ductile alloys, and a method of pro- (lucing filament shaped conductors of proper size and shape and of proper ma,- terial for operating in incandescent lamps at high temperatures and consequently at high elliciencies.
  • My improved method is applicable in the treatment of those high melting metals which are obtainable'in the form of powder.
  • Refractory metals of this kind such as tungsten, thorium, and molybdenum cannot be readily shaped into lamp filaments Without. some special treatment.
  • refractory metal is mixed with a less re-' fractory metal and the mixture is heated to such a temperature that the less refractorymetal fuses.
  • An'alloy of the metals may thereby be formed, even though the temperature of fusion is very much lower than the melting point ,of the more refractorycomponent. Alloys so produced are in some i'nstance's'ductile-so that they can be rolled and worked into filaments. The more volatile metal-may then be driven off by heat or may be otherwise removed to leave behind afilament shaped conductor of pure refractory metal.
  • Molybdenum in the form of a dry, finely divided powder is mixed with an equal part of a ductile metal, such as finely divided or comminuted copper, and the mixture is compressed into a solid lump by heavy pressure.
  • a ductile metal such as finely divided or comminuted copper
  • This lump is then heated to such a temperature that the ductile metal fuses.
  • An alloy' is probably formed, owing to the molecular mobility at the high tem- 'perature which causes the met-als to mix uniformly.
  • This cohesive mass or alloy is then rolled, or drawn through a die, or otherwise worked to produce wires of the proper shape and cross section for lamp filaments.
  • the compressed lump, before heating, is copper-redin color, but after firing it becomes silver colored with a faint pinkish tinge. It can be rolled into thin foil and will take a permanent set when bent slightly, I
  • the filament. shaped conductors obtained as above described are heated in a vacuum or in an inertatmosphere to drive out the copperor other ductile metal of the cohesive mass or alloy.
  • the molybdenum is not left porous by the vaporization of the copper, but on the other hand seems to solidify into a dense product. Whether this is due to the drawing together of the molecules, or is some other complex phenomenon I will not attempt to state,
  • the filament is dense as above described. It is malleable and strong and is otherwise well suited forthe manufacture of commercial lamps.
  • the filaments may be heated by current passed through the filament, or they may be treated to radiant heat in any suitable vacuum furnace.
  • the temperature of this treatment is somewhat above the vaporizing point. of copper.
  • the decomposition of the alloy if an alloy has been formed seemsto result from aboiling'away of the ductile metal at a temperature lower than-the melting point of the alloy, It will thus be seen that the ductile metal serves as a means to draw together the fine particlesof the original heating to fuse the ductile metal, and subse quently heating to a higher'temperature to vaporize the ductile ,metal and produce a coherent body of the refractory'metal.
  • refractory metal inpowdered form with less refractory metal heating to fuse the less refractory metal and produce a cohesive mass, working said mass into a predetermined-shape, then vaporizing the less refractory metal to leave behind a coherent body of refractory metal.
  • the rocess which consists in mixing finely divided molybdenum with finely divided copper, compressing said mixture into a block,.heating the block until the copper is fused, working the product into the desired shape, and then vaporizing the-copper in a non-oxidizing atmosphere to produce a refractory conductor stable at high temperatures.
  • a method of manufacturing filaments of highly refractory metals for electric lamps consisting in surrounding each particle of the comminuted concerned metals with a casing'of another ductile metal and forminga cohesive mass of the metals and in forming the mass into filaments,
  • a method of manufacturing filaments of highly refractory metals for electric lamps consisting in comminuting another ductile metal, in mixing the comminuted concerned metals intimately together and uniting the same into a cohesive mass in such a manner that each particle of the highly refractory metals is surrounded with a casing of the ductile metal, and in forming the mass into filaments.

Description

TED s'ra rns Parana onnros.
1 'WiLLIAM C. ARSEM OF QCHENECTADY, NEW YORK, ASSIGNOR TO GENERAL ELECTRIC COMPANY, A CORPORATTON OF NEW YORK.
PRODUCING METAL FILAMEN'IS.
No Drawing.
Specification of Letters Patent.
Patented Aug. 6, 1912.
Application filed May 9, 1906. Serial-No. 316,004.
To all whom. may concern;
Be it known that I, WILLIA C. AnsnM, a citizen ofthe United States, residing at Schenectady, county of Schenectady, State of New York, have invented certain new and useful Improvements -in Producing Metal Filaments, of which the following is a specification. I
This invention relates to the manufacture of incandescing conductors such as aroused in incandescent lamps, resistance furnaces and similar apparatus.
It comprises a process forthe manufacture of ductile alloys, and a method of pro- (lucing filament shaped conductors of proper size and shape and of proper ma,- terial for operating in incandescent lamps at high temperatures and consequently at high elliciencies.
My improved method is applicable in the treatment of those high melting metals which are obtainable'in the form of powder. Refractory metals of this kind, such as tungsten, thorium, and molybdenum cannot be readily shaped into lamp filaments Without. some special treatment.
According to my present invention, the
refractory metal is mixed with a less re-' fractory metal and the mixture is heated to such a temperature that the less refractorymetal fuses. An'alloy of the metals may thereby be formed, even though the temperature of fusion is very much lower than the melting point ,of the more refractorycomponent. Alloys so produced are in some i'nstance's'ductile-so that they can be rolled and worked into filaments. The more volatile metal-may then be driven off by heat or may be otherwise removed to leave behind afilament shaped conductor of pure refractory metal. It is to beunderstood; however, that the fformation'of an alloy is not essential to my invention, since in the manner hereinafter set forth a workable coherent body from which filaments capable of being freely handled and manipulated may be produced by various ordinary methods of metal working can be obtained without the formation of an alloy. Nor is the correctness of any'particular theory as to the relation of the metals of prime importance, since the advantages of my invention in its broader aspects are independent of whether or not the metals are alloyed.
Although my invention is applicable to the treatment of tungsten, molybdenum and various other of the well-known refractory metals, I will describe the process as applied to' molybdenum, and it is to be understood that the same general process is applicable to tungsten and other metals.
Molybdenum in the form of a dry, finely divided powder is mixed with an equal part of a ductile metal, such as finely divided or comminuted copper, and the mixture is compressed into a solid lump by heavy pressure. In this cohesive mass each particle of the powdered or comminuted molybdenum is, as it were, surrounded with a casing of copper. This lump is then heated to such a temperature that the ductile metal fuses. An alloy'is probably formed, owing to the molecular mobility at the high tem- 'perature which causes the met-als to mix uniformly. This cohesive mass or alloy is then rolled, or drawn through a die, or otherwise worked to produce wires of the proper shape and cross section for lamp filaments. The compressed lump, before heating, is copper-redin color, but after firing it becomes silver colored with a faint pinkish tinge. It can be rolled into thin foil and will take a permanent set when bent slightly, I
The filament. shaped conductors obtained as above described are heated in a vacuum or in an inertatmosphere to drive out the copperor other ductile metal of the cohesive mass or alloy. This leaves behind pure molybdenum in a form suitable for mounting in globes or incandescent-lamps. The molybdenum is not left porous by the vaporization of the copper, but on the other hand seems to solidify into a dense product. Whether this is due to the drawing together of the molecules, or is some other complex phenomenon I will not attempt to state,
but whatever the cause, the filament is dense as above described. It is malleable and strong and is otherwise well suited forthe manufacture of commercial lamps.
To oiled; the y-aporization of copper the filaments may be heated by current passed through the filament, or they may be treated to radiant heat in any suitable vacuum furnace. The temperature of this treatment is somewhat above the vaporizing point. of copper. The decomposition of the alloy if an alloy has been formed seemsto result from aboiling'away of the ductile metal at a temperature lower than-the melting point of the alloy, It will thus be seen that the ductile metal serves as a means to draw together the fine particlesof the original heating to fuse the ductile metal, and subse quently heating to a higher'temperature to vaporize the ductile ,metal and produce a coherent body of the refractory'metal.
.2. The process .which consists in mixing.
refractory metal inpowdered form with less refractory metal, heating to fuse the less refractory metal and produce a cohesive mass, working said mass into a predetermined-shape, then vaporizing the less refractory metal to leave behind a coherent body of refractory metal.
3. The process which consists in mixing highly refractory metal in powdered form, with less. refractory metal, heatingto produce a union between said metals, and then heating to a higher temperature to vaporize said less refractory metal and produce a coherent product of pure refractory metal suitable for use as an incandescing conductor.
4'. The rocess which consists in mixing finely divided molybdenum with finely divided copper, compressing said mixture into a block,.heating the block until the copper is fused, working the product into the desired shape, and then vaporizing the-copper in a non-oxidizing atmosphere to produce a refractory conductor stable at high temperatures.
5. The process which conslsts in fusing low meltingmetal in contact-with finely di-- vided refractory metal, and subsequently heating to a higher temperature tovaporize the low melting metal and produce a coherent body of the refractory metal.
6. The process which consists in fusing ductile metal in contact with finely divided refractory metal, shaping the product so formed into wires, and'heating said wires to .vaporize the ductile metal and produce a coherent filament of the refractory metal.
- 7. The process of fusing ductile metal in the presence of non-ductile refractory metal to produce a .ductile product,'working said product into a predetermined shape and'removing said ductile metal to leave a refractory residue conforming to said shape.
8. The process which consists in fusing ductile material in the presence of finely di- "ided refractory metal, shaping the product so formed into wire and heating the wires to drive out the more volatile components.
9. The process which consists in fusing low melting metal in contact with finely divided refractory metal, shaping the product so formed, and heating to a higher temperature to vaporize the low melting metal and consolidate the residue intoa coherent conductor.
. 10. A method of manufacturing filaments of highly refractory metals for electric lamps consisting in surrounding each particle of the comminuted concerned metals with a casing'of another ductile metal and forminga cohesive mass of the metals and in forming the mass into filaments,
11. A method of manufacturing filaments of highly refractory metals for electric lamps consisting in comminuting another ductile metal, in mixing the comminuted concerned metals intimately together and uniting the same into a cohesive mass in such a manner that each particle of the highly refractory metals is surrounded with a casing of the ductile metal, and in forming the mass into filaments.
12. The process which consists in incorporating together. refractory .metal and other metal to form a' cohesive workable mass, shaping filaments from said mass, and treating such filaments to eliminate said other metal and consolidate the residue of refractory metaL' 13. The process which consists in forming a coherent mass consisting of finely divided particles of refractory metal mixed with and held together by other metal, heating said mass to .a temperature sutlicient to fuse said other metal, shaping filaments from the product, and heating saidfilamentsby the passage of current through them to vaporize and expel said other metal and consolidate the residue of refractory metala 14. The process which consists 'in.inc'orporating together into a cohesive workable
US31600406A 1906-05-09 1906-05-09 Producing metal filaments. Expired - Lifetime US1034949A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2669008A (en) * 1951-06-30 1954-02-16 Philips Lab Inc Method of manufacturing tungsten articles of predetermined shape and dimensions
US2699015A (en) * 1951-02-27 1955-01-11 Westinghouse Electric Corp Metal mixture for sealing to glass
US3264101A (en) * 1962-08-18 1966-08-02 Hitachi Ltd Method of manufacturing sintered materials

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2699015A (en) * 1951-02-27 1955-01-11 Westinghouse Electric Corp Metal mixture for sealing to glass
US2669008A (en) * 1951-06-30 1954-02-16 Philips Lab Inc Method of manufacturing tungsten articles of predetermined shape and dimensions
US3264101A (en) * 1962-08-18 1966-08-02 Hitachi Ltd Method of manufacturing sintered materials

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