US2664180A - Quartz-to-metal seal - Google Patents
Quartz-to-metal seal Download PDFInfo
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- US2664180A US2664180A US24522A US2452248A US2664180A US 2664180 A US2664180 A US 2664180A US 24522 A US24522 A US 24522A US 2452248 A US2452248 A US 2452248A US 2664180 A US2664180 A US 2664180A
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- disc
- rod
- quartz
- metal
- molybdenum
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J5/00—Details relating to vessels or to leading-in conductors common to two or more basic types of discharge tubes or lamps
- H01J5/32—Seals for leading-in conductors
- H01J5/40—End-disc seals, e.g. flat header
- H01J5/42—End-disc seals, e.g. flat header using intermediate part
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J2893/00—Discharge tubes and lamps
- H01J2893/0033—Vacuum connection techniques applicable to discharge tubes and lamps
- H01J2893/0034—Lamp bases
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T403/00—Joints and connections
- Y10T403/21—Utilizing thermal characteristic, e.g., expansion or contraction, etc.
- Y10T403/217—Members having different coefficients of expansion
Definitions
- My invention relates to quartz-to-metal seals for electric devices, such as electric discharge lamps.
- Seals of this type in which the quartz is fused directly to tungsten wires or molybdenum sheets of thin cross section to make gas-tight joints, have been known for many years.
- the currentcarrying capacity of such seals is limited, however, to about one or two amperes because of the small size of the metal conductor. Where heavier currents, such as amperes, are used it has been the practice commercially to employ seals including a multiplicity of molybdenum foils connected in parallel.
- Such seals are of largesize, complicated structure and are diiiicult and expensive to fabricate.
- the hermetic joint between the tungsten rod and the molybdenum thimble in such seals should be resistant to high temperatures and pressures and it is an object of my invention to provide such a hermetic joint and a method of making it. Another object of my invention is to provide a refractory juncture between tungsten and molybdenum seal members. A further object of my invention is to provide a quartz-to-metal seal in the form of a stem for a quartz envelope of an electric device.
- the stem comprises a quartz stem tube I having a tungsten conductor rod 2 extending therethrough.
- Thin molybdenum foil 3 the thickness of which is exaggerated in the drawing, is wrapped around the rod 2 to prevent the quartz fusing with and adhering thereto during fabrication of the stem.
- a molybdenum disc 4 is positioned around the rod 2 and its thin tapered sealing edge 5 is embedded in the wall of the quartz tube I which is fused to said edge 5 to make a gas-tight joint therewith.
- the disc 4 has an annular corrugated or bellows portion 6 to relieve the radial strains set up in the disc because of the differcut rates of expansion of the rod 2, the disc 4, and the quartz tube I under manufacturing and service conditions.
- a pair of opposed dished washers or cups and 8 of molybdenum are also disposed around the rod 2 with their concave sides facing each other and their edges bearing against the disc 4 between the bellows 6 and the sealing edge 5 to form a chamber about the bellows.
- the cups I and 8 prevent the plastic quartz from fusing with the bellows part of the disc during fabrication so that said bellows part may flex under varying temperature conditions during service.
- a tungsten electrode 9 is mounted on the rod 2.
- the stem tube I is provided with a flare IE3 at one end for fusion with the sides of an opening in a quartz envelope to close said opening.
- the envelope is that of an electric discharge lamp operating at an elevated temperature
- the joint between the disc 4 and the rod 2 must be gas-tight at temperatures ranging from room temperature to perhaps hundreds of degrees centigrade.
- the brazed joint is shown at I2 in Figs. 1 and 2.
- the rod is supported on end in an evacuated hard glass bottle.
- the perforated disc 4 is positioned on the rod 2 with the cavity formed by the bellows 6 opening upward toward the short end portion of the rod and disposed approximately one inch from the end of the rod.
- a single ring of platinum wire is dropped over the end of the rod 2 and into the cavity.
- the bottle is then evacuated and the rod, disc and platinum ring are heated by a high frequency of the platinum.
- the seal member is a molybdenum thimble around the rod 2 rather than the. disc. l
- the platinum is placed inside the thimblawhich opens upward, and the same steps are performed to make the brazed joint between the molybdenum thimble and the tungsten rod.
- The. thimble and the disc. are. mounted on the rod with their cavities opening outward from the lamp envelope to expose the minimum of. brazing material inside the envelope.
- the tapered sealing edge 5 is formed by electrolytically etch'ng the edge portion of the disc.
- a three per cent potassium hydrcxide (KOH) solution and an alternating current of about 3 amperes per square inch of the submerged portion of the disc surface is effective.
- the disc is connected as one electrode and is retated about its axis with its edge portion submersed a suitable distance in the electrolyte.
- the other electrode may be constituted by a semi circular molybdenum strip about 1 /2 inches. in diameter.
- the bellows t is formed before disc 4 is united with red 2.
- the apparatus shown in Figs. 3 and 4 of the drawing is eifecti've for forming the bellows and includes two steel plates i3 and it betweenwhich the disc l is positioned.
- the upper plate 53 has an opening I5 to accommodate the plunger It bearing against the hard steel ball H and the plates are held together by clamps I 8 and It.
- the bellows may be increased insize by placing thin sheets of softer material, such as nickel or brass, between the molybdenum disc d and the lower plate is. the disc, is pressed or squeezed away from the high pressure point into the zone defined by the ball El and the flared end 26 of the opening it and further raises the natural degree of bellowing. After being so shaped, a hole is punched in the center of disc A to accommodate rod 2.
- thin sheets of softer material such as nickel or brass
- the dished washers or cups 1 and 8 engaging opposite sides of the disc 3 may be formed in the same manner, that is, by pressing a steel ballof suitable dimensions into a molybdenum sheet to form the sheet into a cup. A hole is then punched in the bottom of the cup to accommodate the rod 2.
- the cups 1 and 8 are positioned on the rod 2 and against the disc 4 brazed to the rod as shown in Figs. 1 and 2.
- the portions of the rod 2 extending outward from the cups l and 8 are then Wrapped with molybdenum foil. 3.
- This assembly is then inserted into two quartz tubes 2! and 22 which extend beyond the This softer material, along with z:-.;
- a flare 23 and 2d at one end each of which has a flare 23 and 2d at one end, as shown in Fig. 2.
- One of the flares, which may be flare 23, has a ring 25 of quartz fused to its face which bears against the other flare 2t to space the flares 23 and 2 3 apart and acts as a bafiie to slow the escape of gas from the chamber formed by the two tubes 2.! and 22 in the position shown in Fig. 2.
- inactive gas such as nitrogen
- inactive gas such as nitrogen
- the assembly is then cooled to room temperature and the chamber is evacuatcd by sealing one end of the chamber and connecting the other end to a high vacuum system.
- the metal parts are heated by high frequency current to an elevated temperature to remove any oxide and liquid air is used to trap all remaining vapors.
- the assembly is then tipped off the vacuum system and placed in a glass lathe.
- the quartz on both sides of the sealing edge 5 of the disc is heated by gas flames to its softening point until it collapses onto and fuses with both sides of the sealing edge 5 of the disc simultaneously to avoid deforin'ng the edge 5.
- the quartz surrounding the portions of rod 2 covered by foil 3 is then heated to its softening temperature to collapse it onto the foil, wrapping. After cooling to room temperature the, stem is. completed by opening one end of the chamber to the atmosphere and then removing the. excess. quartz to expose the ends of the rod 2.
- the flare it for sealing the stem to the lamp envelope isv formed by blowing out a bulge inthe, tube 2i before assembly and cutting the bulge in half to expose the end of the rod 2 in completing the stem.
- the electrode 9 is then mounted onv the exposed end of the rod 2 and the stemv is then ready for mounting on a quartz envelope in the usual manner.
- a specific embodiment of the seal which has given good results has a ground tungsten rod A; inch in diameter and 5 inches long and a punched molybdenum disc inch in diameter and 3 /2 mils thick at its center portion with its edge electrolytically etched so as to taper down from a thickness of not more than 1 mil at a radial distance of inch from its edge to form the sealing edge 5.
- the molybdenum cups 1 and 8 have a thickness of 3 mils and the foil a thickness of .5 to .7 mil.
- the foil was spot-welded to the rod along one of its edges and the welded edge covered by the loose end of the foil.
- the quartz tubing used to form the stem tube. had a bore of about. 3.5 to 4.0 millimeters and a wall thickness. of about 4, to. 5 millimeters.
- The, quartz ring 25 had a thickness of Tie inch and an inner diameter of inch.
- the platinum ring for brazing was shaped from a wire having a diameter of .0
- flares Z3 and 25 on tubes 25 and 22 I'prefer to first form a bulge in a single quartz tube and compress the bulge axially of the tube. The bulge is then severed by an abrasive wheel at its largest diameter to form the two flared tubes 2
- Palladium may be substituted for platinum as the brazng material at the joint [2.
- a stem comprising a vitreous support, a metal rod extending through said support, a metal disc hermetically united with said rod and said support, said rod being of a metal from the group consisting of tungsten and molybdenum; and said disc being of the other metal of said group, said disc having a bellows portion for relieving radial strain in said disc, and metal cups on opposite sides of said disc providing a chamber in said stem and about said bellows portion for free flexing of the latter.
- a stem comprising a quartz stem tube, a tungsten rod extending through said tube, amolybdenum disc hermetically united with said rod and said tube and having a bellows portion for relieving radial strain in said disc and molybdenum cups positioned around said rod and on opposite sides of said disc to form a chamber about said bellows for free fiexing' of the latter.
- a stem comprising a quartz stem tube, a metal rod extending through said stem tube, an annular metal disc around said rod and hermetically united with said rod and said tube, said rod being of a metal of the group consisting of tungsten and molybdenum and said disc being of the other metal of said group, the hermetic union between said rod and said disc consisting of a metal alloy of tungsten and molybdenum and a metal of the group consisting of platinum and palladium, said disc having a bellows portion for relieving radial strain in said disc, and metal cups on opposite sides of said disc providing a chamber in said stem tube and about said bellows portion for free flexing of the latter.
- a stem comprising a quartz stem tube, a tungsten rod extending through said tube, a molybdenum disc hermetically united with said rod and said tube and having a bellows portion for relieving radial strain in said disc and molybdenum cups positioned around said rod and on opposite sides of said disc to form a chamber about said bellows for free flexing of the latter, said disc being annular and positioned around said rod.
- the hermetic union between said rod and said disc consisting of an alloy of tungsten. molybdenum and platinum.
Description
Dec 29, 1953 PETERS 2,664,180
QUARTZ TO METAL SEAL Filed May 1, 1948 Inverfirov: Leo E. Pecevs,
- His A ir tor'neg.
Patented Dec. 29, 1953 QUARTZ-TO-METAL SEAL Leo E. Peters, Cleveland Heights, Ohio, assignor to General Electric Company, a corporation of New York Application May 1,1948, Serial No. 24,522
4 Claims. 1
My invention relates to quartz-to-metal seals for electric devices, such as electric discharge lamps.
Seals of this type, in which the quartz is fused directly to tungsten wires or molybdenum sheets of thin cross section to make gas-tight joints, have been known for many years. The currentcarrying capacity of such seals is limited, however, to about one or two amperes because of the small size of the metal conductor. Where heavier currents, such as amperes, are used it has been the practice commercially to employ seals including a multiplicity of molybdenum foils connected in parallel. Such seals are of largesize, complicated structure and are diiiicult and expensive to fabricate.
in the co-pending Greiner application Serial No. 24,523 of even date herewith and assigned to the assignee of the present application, now Patent 2,504,521, issued April 18, 1950, a high capacity seal of small size and simple structure using but one large conductor, such as a tungsten rod, for carrying the current and passing through the quartz part of the seal is disclosed and claimed. The quartz is not fused to the rod, instead, a seal member in the form of a molybdenum thimble around the rod and hermetically united therewith is provided. The thimble has a thin sealing edge embedded in the quartz and to which the quartz is fused to make a gastight joint. Such seals are made in the form of stems for the quartz envelopes of high pressure mercury vapor discharge lamps having a power consumption of the order of kilowatts and a vapor pressure of many atmospheres.
The hermetic joint between the tungsten rod and the molybdenum thimble in such seals should be resistant to high temperatures and pressures and it is an object of my invention to provide such a hermetic joint and a method of making it. Another object of my invention is to provide a refractory juncture between tungsten and molybdenum seal members. A further object of my invention is to provide a quartz-to-metal seal in the form of a stem for a quartz envelope of an electric device.
Further objects and advantages of the invention will appear from the following detailed description of species thereof taken in conjunc ing a metal part of the stem; and Fig. e is a similar view of the apparatus after the said part has been shaped.
Referring to Fig. l of the drawing, the stem comprises a quartz stem tube I having a tungsten conductor rod 2 extending therethrough. Thin molybdenum foil 3, the thickness of which is exaggerated in the drawing, is wrapped around the rod 2 to prevent the quartz fusing with and adhering thereto during fabrication of the stem. A molybdenum disc 4 is positioned around the rod 2 and its thin tapered sealing edge 5 is embedded in the wall of the quartz tube I which is fused to said edge 5 to make a gas-tight joint therewith. The disc 4 has an annular corrugated or bellows portion 6 to relieve the radial strains set up in the disc because of the differcut rates of expansion of the rod 2, the disc 4, and the quartz tube I under manufacturing and service conditions. A pair of opposed dished washers or cups and 8 of molybdenum are also disposed around the rod 2 with their concave sides facing each other and their edges bearing against the disc 4 between the bellows 6 and the sealing edge 5 to form a chamber about the bellows. The cups I and 8 prevent the plastic quartz from fusing with the bellows part of the disc during fabrication so that said bellows part may flex under varying temperature conditions during service. A tungsten electrode 9 is mounted on the rod 2.
The stem tube I is provided with a flare IE3 at one end for fusion with the sides of an opening in a quartz envelope to close said opening. When the envelope is that of an electric discharge lamp operating at an elevated temperature, the joint between the disc 4 and the rod 2 must be gas-tight at temperatures ranging from room temperature to perhaps hundreds of degrees centigrade. I have found that a brazed platinum joint meets these requirements and is mechanically strong enough to withstand pressures of many atmospheres. The brazed joint is shown at I2 in Figs. 1 and 2.
In making the joint between the rod 2 and the disc 4, the rod is supported on end in an evacuated hard glass bottle. The perforated disc 4 is positioned on the rod 2 with the cavity formed by the bellows 6 opening upward toward the short end portion of the rod and disposed approximately one inch from the end of the rod. A single ring of platinum wire is dropped over the end of the rod 2 and into the cavity. The bottle is then evacuated and the rod, disc and platinum ring are heated by a high frequency of the platinum.
3 current to just below the melting temperature This heating is continued until all gases are driven off from these metal parts and clean metallic surfaces are obtained. The J i s then increased to heat the metal parts to 'iture at which platinum wets the disc and the rod and forms an alloy of tungsten, molybdenum and platinum which makes a perfect brazed hermetic joint bonding the rod 2 and the disc Obviously, a solid disc may be used by joining the ends of two rods to its opposite sides. Thin discs of platinum may be placed between the ends of the rods and the molybdenum disc and the brazed joints formed as described above.
When the seal member is a molybdenum thimble around the rod 2 rather than the. disc. l, the platinum is placed inside the thimblawhich opens upward, and the same steps are performed to make the brazed joint between the molybdenum thimble and the tungsten rod. The. thimble and the disc. are. mounted on the rod with their cavities opening outward from the lamp envelope to expose the minimum of. brazing material inside the envelope.
After the disc d has been hermetically united with the rod 2, the tapered sealing edge 5 is formed by electrolytically etch'ng the edge portion of the disc. A three per cent potassium hydrcxide (KOH) solution and an alternating current of about 3 amperes per square inch of the submerged portion of the disc surface is effective. The disc is connected as one electrode and is retated about its axis with its edge portion submersed a suitable distance in the electrolyte. The other electrode may be constituted by a semi circular molybdenum strip about 1 /2 inches. in diameter.
The bellows t is formed before disc 4 is united with red 2. The apparatus shown in Figs. 3 and 4 of the drawing is eifecti've for forming the bellows and includes two steel plates i3 and it betweenwhich the disc l is positioned. The upper plate 53 has an opening I5 to accommodate the plunger It bearing against the hard steel ball H and the plates are held together by clamps I 8 and It. The inner edge 25} of the open=ng l 5 is flared outward so that an annular portion of the disc 4 may move upward when the ball I? is pressed down by the plunger it against the center of the disc 4.
This forms the ring bellows 6 as shown in Fig. 4. The bellows may be increased insize by placing thin sheets of softer material, such as nickel or brass, between the molybdenum disc d and the lower plate is. the disc, is pressed or squeezed away from the high pressure point into the zone defined by the ball El and the flared end 26 of the opening it and further raises the natural degree of bellowing. After being so shaped, a hole is punched in the center of disc A to accommodate rod 2.
The dished washers or cups 1 and 8 engaging opposite sides of the disc 3 may be formed in the same manner, that is, by pressing a steel ballof suitable dimensions into a molybdenum sheet to form the sheet into a cup. A hole is then punched in the bottom of the cup to accommodate the rod 2.
In making the seal, the cups 1 and 8 are positioned on the rod 2 and against the disc 4 brazed to the rod as shown in Figs. 1 and 2. The portions of the rod 2 extending outward from the cups l and 8 are then Wrapped with molybdenum foil. 3. This assembly is then inserted into two quartz tubes 2! and 22 which extend beyond the This softer material, along with z:-.;
i ends of the rod and each of which has a flare 23 and 2d at one end, as shown in Fig. 2. One of the flares, which may be flare 23, has a ring 25 of quartz fused to its face which bears against the other flare 2t to space the flares 23 and 2 3 apart and acts as a bafiie to slow the escape of gas from the chamber formed by the two tubes 2.! and 22 in the position shown in Fig. 2.
With the tubes in this position inactive gas, such as nitrogen, at slight pressure is forced into the chamber through the ends of both tubes 23 and 22 and escapes through the space between the ring 25 and the opposite flare E l carrying with it the air present in the. tubes. The ring 25 is then fused to the other flare 24 to splice the tubes. care being taken to avoid. fusng the quartz to scaling edged of the. disc. 5., The assembly is then cooled to room temperature and the chamber is evacuatcd by sealing one end of the chamber and connecting the other end to a high vacuum system. During exhaust the metal parts are heated by high frequency current to an elevated temperature to remove any oxide and liquid air is used to trap all remaining vapors. The assembly is then tipped off the vacuum system and placed in a glass lathe.
While the assembly is rotated in the lathe the quartz on both sides of the sealing edge 5 of the disc is heated by gas flames to its softening point until it collapses onto and fuses with both sides of the sealing edge 5 of the disc simultaneously to avoid deforin'ng the edge 5. This forms a gas-tight joint between the quartz and the sealing edge and joins the tubes 2i and 22 to form the. stem tube. i. The quartz surrounding the portions of rod 2 covered by foil 3 is then heated to its softening temperature to collapse it onto the foil, wrapping. After cooling to room temperature the, stem is. completed by opening one end of the chamber to the atmosphere and then removing the. excess. quartz to expose the ends of the rod 2. The flare it for sealing the stem to the lamp envelope isv formed by blowing out a bulge inthe, tube 2i before assembly and cutting the bulge in half to expose the end of the rod 2 in completing the stem. The electrode 9 is then mounted onv the exposed end of the rod 2 and the stemv is then ready for mounting on a quartz envelope in the usual manner.
A specific embodiment of the seal which has given good results has a ground tungsten rod A; inch in diameter and 5 inches long and a punched molybdenum disc inch in diameter and 3 /2 mils thick at its center portion with its edge electrolytically etched so as to taper down from a thickness of not more than 1 mil at a radial distance of inch from its edge to form the sealing edge 5. The molybdenum cups 1 and 8 have a thickness of 3 mils and the foil a thickness of .5 to .7 mil. The foil was spot-welded to the rod along one of its edges and the welded edge covered by the loose end of the foil. The quartz tubing used to form the stem tube. had a bore of about. 3.5 to 4.0 millimeters and a wall thickness. of about 4, to. 5 millimeters. The, quartz ring 25 had a thickness of Tie inch and an inner diameter of inch. The platinum ring for brazing was shaped from a wire having a diameter of .025v of an inch.
In forming flares Z3 and 25 on tubes 25 and 22, I'prefer to first form a bulge in a single quartz tube and compress the bulge axially of the tube. The bulge is then severed by an abrasive wheel at its largest diameter to form the two flared tubes 2| and 22 from the single tube.
Palladium may be substituted for platinum as the brazng material at the joint [2.
What I claim as new and desire to secure by Letters Patent of the United States is:
1. A stem comprising a vitreous support, a metal rod extending through said support, a metal disc hermetically united with said rod and said support, said rod being of a metal from the group consisting of tungsten and molybdenum; and said disc being of the other metal of said group, said disc having a bellows portion for relieving radial strain in said disc, and metal cups on opposite sides of said disc providing a chamber in said stem and about said bellows portion for free flexing of the latter.
2. A stem comprising a quartz stem tube, a tungsten rod extending through said tube, amolybdenum disc hermetically united with said rod and said tube and having a bellows portion for relieving radial strain in said disc and molybdenum cups positioned around said rod and on opposite sides of said disc to form a chamber about said bellows for free fiexing' of the latter.
3. A stem comprising a quartz stem tube, a metal rod extending through said stem tube, an annular metal disc around said rod and hermetically united with said rod and said tube, said rod being of a metal of the group consisting of tungsten and molybdenum and said disc being of the other metal of said group, the hermetic union between said rod and said disc consisting of a metal alloy of tungsten and molybdenum and a metal of the group consisting of platinum and palladium, said disc having a bellows portion for relieving radial strain in said disc, and metal cups on opposite sides of said disc providing a chamber in said stem tube and about said bellows portion for free flexing of the latter.
4. A stem comprising a quartz stem tube, a tungsten rod extending through said tube, a molybdenum disc hermetically united with said rod and said tube and having a bellows portion for relieving radial strain in said disc and molybdenum cups positioned around said rod and on opposite sides of said disc to form a chamber about said bellows for free flexing of the latter, said disc being annular and positioned around said rod. the hermetic union between said rod and said disc consisting of an alloy of tungsten. molybdenum and platinum.
LEO R. PETERS.
References Cited in the file of this patent UNITED STATES I ATENTS OTHER REFERENCES Price: Journal National Dental Assn. vol. 4, 1917, p. 5 and vol. 11, 1917, p. 1186-7. (Briefed in Chem. Abs.)
Atkinson: Soldering Tungsten, Nature vol. 126, 1930.
Claims (1)
1. A STEM COMPRISING A VITREOUS SUPPORT, A METAL ROD EXTENDING THROUGH SAID SUPPORT, A METAL DISC HERMETICALLY UNITED WITH SAID ROD AND SAID SUPPORT, SAID ROD BEING OF A METAL FROM THE GROUP CONSISTING OF TUNGSTEN AND MOLYBDEMUM; AND SAID DISC HEING OF THE OTHER METAL OF SADI GROUP, SAID DISC HAIVNG A BELLOWS PORTION FOR RELIEVING RADIAL STRAIN IN DISC, AND METAL CUPS ON OPSAID STEM AND ABOUT SAID BELLOWS PORTION FOR FREE FLEXING OF THE LATTER.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US24522A US2664180A (en) | 1948-05-01 | 1948-05-01 | Quartz-to-metal seal |
ES0187642A ES187642A1 (en) | 1948-05-01 | 1949-03-30 | A DISCHARGE TUBE WITH VITREA MATTER BLISTER, SUCH AS QUARTZ |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US24522A US2664180A (en) | 1948-05-01 | 1948-05-01 | Quartz-to-metal seal |
Publications (1)
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US2664180A true US2664180A (en) | 1953-12-29 |
Family
ID=21821025
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US24522A Expired - Lifetime US2664180A (en) | 1948-05-01 | 1948-05-01 | Quartz-to-metal seal |
Country Status (2)
Country | Link |
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US (1) | US2664180A (en) |
ES (1) | ES187642A1 (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2725498A (en) * | 1952-06-25 | 1955-11-29 | Westinghouse Electric Corp | Disc seal for electron gaseous discharge device |
US2844868A (en) * | 1954-06-01 | 1958-07-29 | Sylvania Electric Prod | Method of joining refractory metals |
US2859562A (en) * | 1954-10-15 | 1958-11-11 | Philips Corp | Metal glass seals and methods of making same |
US2964839A (en) * | 1954-12-14 | 1960-12-20 | Corning Glass Works | Flux free bonded article and method |
US3029559A (en) * | 1956-07-25 | 1962-04-17 | Bell Telephone Labor Inc | Glass-metal seals |
US3065571A (en) * | 1957-10-10 | 1962-11-27 | Engelhard Ind Inc | Composite material of platinum alloy and glass |
US3115957A (en) * | 1959-02-18 | 1963-12-31 | Eitel Mccullough Inc | Art of sealing quartz to metal |
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US1096655A (en) * | 1914-03-05 | 1914-05-12 | Gen Electric | Platinum alloy. |
US1261110A (en) * | 1916-05-31 | 1918-04-02 | Frank A Fahrenwald | Process of coating tungsten or molybdenum articles with precious metals. |
US1263656A (en) * | 1916-05-31 | 1918-04-23 | Frank A Fahrenwald | Process of coating or joining articles of tungsten or molybdenum. |
US1293552A (en) * | 1917-09-10 | 1919-02-04 | American Tool Works Co | Clutch. |
US2094570A (en) * | 1936-07-01 | 1937-09-28 | Western Union Telegraph Co | Electric contact |
US2322233A (en) * | 1941-05-02 | 1943-06-22 | Granger Harold | Coaxial transmission line terminal |
US2504521A (en) * | 1948-05-01 | 1950-04-18 | Gen Electric | Quartz-to-metal seal |
-
1948
- 1948-05-01 US US24522A patent/US2664180A/en not_active Expired - Lifetime
-
1949
- 1949-03-30 ES ES0187642A patent/ES187642A1/en not_active Expired
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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US1096655A (en) * | 1914-03-05 | 1914-05-12 | Gen Electric | Platinum alloy. |
US1261110A (en) * | 1916-05-31 | 1918-04-02 | Frank A Fahrenwald | Process of coating tungsten or molybdenum articles with precious metals. |
US1263656A (en) * | 1916-05-31 | 1918-04-23 | Frank A Fahrenwald | Process of coating or joining articles of tungsten or molybdenum. |
US1293552A (en) * | 1917-09-10 | 1919-02-04 | American Tool Works Co | Clutch. |
US2094570A (en) * | 1936-07-01 | 1937-09-28 | Western Union Telegraph Co | Electric contact |
US2322233A (en) * | 1941-05-02 | 1943-06-22 | Granger Harold | Coaxial transmission line terminal |
US2504521A (en) * | 1948-05-01 | 1950-04-18 | Gen Electric | Quartz-to-metal seal |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2725498A (en) * | 1952-06-25 | 1955-11-29 | Westinghouse Electric Corp | Disc seal for electron gaseous discharge device |
US2844868A (en) * | 1954-06-01 | 1958-07-29 | Sylvania Electric Prod | Method of joining refractory metals |
US2859562A (en) * | 1954-10-15 | 1958-11-11 | Philips Corp | Metal glass seals and methods of making same |
US2964839A (en) * | 1954-12-14 | 1960-12-20 | Corning Glass Works | Flux free bonded article and method |
US3029559A (en) * | 1956-07-25 | 1962-04-17 | Bell Telephone Labor Inc | Glass-metal seals |
US3065571A (en) * | 1957-10-10 | 1962-11-27 | Engelhard Ind Inc | Composite material of platinum alloy and glass |
US3115957A (en) * | 1959-02-18 | 1963-12-31 | Eitel Mccullough Inc | Art of sealing quartz to metal |
Also Published As
Publication number | Publication date |
---|---|
ES187642A1 (en) | 1949-05-16 |
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