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Publication numberUS2728425 A
Publication typeGrant
Publication dateDec 27, 1955
Filing dateMar 30, 1953
Priority dateMar 30, 1953
Publication numberUS 2728425 A, US 2728425A, US-A-2728425, US2728425 A, US2728425A
InventorsCyril L Day
Original AssigneeItt
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Article comprised of a metallic part and a ceramic body
US 2728425 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)



INVENTOR. OYR/L L. DA Y ATTORNEYS United ates Patent ARTICLE COMPRISED OF A METALLIC PART AND A CERAMIC BODY Cyril L. Day, Huntington, Ind., assignor to International Telephone and Telegraph Corporation, a corporation of Maryland Application March 30, 1953, Serial No. 345,331 1 Claim. (Cl. 189-365) The present invention relates to an article comprised of a metallic part and a ceramic body, this article having particular utility in the construction of electron discharge tubes.

In vacuum tube constructions, there is provided a rigid assembly comprised of the necessary tube electrodes and suitable supporting structure for holding these electrodes in place. It is conventional practice, in fabricating vacuum tubes, to provide as the aforementioned structure, a number of upright ceramic posts between which are supported the various tube electrodes. These posts usually have metal eyelets or rings secured thereto, with the tube electrodes being welded to these rings. The rings are normally crimped to grip securely the ceramic posts for providing a secure attachment.

However, with repeated heating and cooling of the vacuum tube, the metal ring, after a period of time, will loosen and cause a change in the spacing between the tube electrodes, this in turn affecting the electrical parameters of the vacuum tube. Loosened or damaged supporting structure is often manifested in the form of microphonics, these microphonics being produced by relative vibratory movement of the loosened electrodes as a result of shock imparted to the tube.

It is, therefore, an object of this invention to provide a rigid assembly of a metallic part on a ceramic body which will not loosen because of the repeated heating and cooling of the assembly nor of physical shock or vibration imparted to the assembly.

It is still another object of this invention to provide in a vacuum tube a supporting structure comprised of a ceramic post and a metal ring, these two parts being rigidly joined together against loosening as the result of ambient temperature changes or of -the usual jarring and vibration to which the structure is subjected.

In accordance with the present invention there is provided a supporting structure for use in electron discharge devices, this structure comprising a support made of an electrically non-conductive refractory material, a metallic part carried by this support, and a metallic bond securing this part to the support, this metallic bond closely resembling a brazed or welded joint. Also, in accordance with this invention, there is provided a method for brazing a metal part to a ceramic body, this method being the ultimate in simplicity, and providing a joint which may not be broken without causing damage to the ceramic body.

For a better understanding of the invention, together with other and further objects thereof, reference is made to the following description taken in connection with the accompanying drawing, and its scope will be pointed out in the appended claim.

In the drawing:

Fig. 1 is a longitudinal section of one embodiment of this invention, this embodiment being used as a portion of the supporting structure for the electrodes of a vacuum tube; and

Fig. 2 is a cross section thereof.

4 2,728,425 Patented Dec. 27, 1955 This illustrated supporting structure comprises an elongated tubular member 1 which is of annular cross section, and which is made of an electrically non-conductive refractory material usually characterized in the art of electronics as ceramic material. For purposes of convenience in further explaining this invention and of defining the invention in the appended claims, this material will be characterized as ceramic, and it is intended to cover within the meaning of this word any non-conducting body used in the art of electronics which is suitable for supporting purposes.

A metal eyelet 2 is received over the ceramic post 1 and comprises a radially outwardly extending flange 3 and an axially extending tubular portion 4. The inner diameter 5 of this axial extension 4- may be somewhat larger than the outer diameter of the post 1 thereby providing a loose tolerance fit with the post. However, the proper size of this opening 5, which is not critical, will become apparent from the following description.

This eyelet 2 is secured to the post 1 by means of a metal joint 6 which is annular in cross section and which preferably extends the full length of the axial extension 4. This metal joint or bond 6 completely fills the radial clearance between the opening 5 and the outer surface of the post 1, and is brazed to the eyelet 2 and gripped onto the post 1. It has been found that this joint 6 is so secure that any reasonable effort exerted to pull the eyelet 2 off the post 1 results in fracture of this post.

The formation of this joint 6 may be achieved in accordance with the following described method. After assembling the eyelet 2 on the ceramic post 1, the assembly is inserted in a suitable furnace containing a hydrogen atmosphere. A suitable number of small metal rings of silver or the like are placed on top of the eyelet 2. These rings are melted and caused to flow into the radial space between the eyelet 2 and the post 1, and the assembly is thereafter cooled in accordance with preferred practices. If the eyelet 2 is made of copper, and the brazing rings are composed of silver material such as that normally used for brazing purposes, the joint 6 will be characterized by the usual brazing fusion between the brazing metal and the copper part 2; however, no fusion of this same character is believed to occur with the ceramic post itself.

While copper has been suggested as the material for the eyelet 2, and silver as the brazing material, any combination of materials which will provide a brazed joint between the metal part 2 and the brazing material itself will satisfy the requirements of this invention. In the use of these particular materials, the hydrogen atmosphere serves as a reducing agent which allows the silver to. wet the contiguous surface of the copper eyelet. In melting the brazing material, a radio frequency heating field of the type normally used in the fabrication of vacuum tubes is preferably used, but, of course, any suitable furnace arrangement may be used for forming the joint.

The tenacious connection between the metal eyelet and the ceramic post is believed to occur by reason of the fact that the melted brazing metal flows into the spaces between the two parts, and also fills the indentations and crevices in the surface of the ceramic. Upon hardening, the joint shrinks about the surface of the ceramic and thereby more forcefully enters and adheres to these indentations and crevices.

While the foregoing invention has been described in connection with its use in vacuum tube construction, it will be appreciated that this invention of, in effect, brazing two completely dissimilar materials, such as ceramic and metal together may be utilized in other arts. While ceramic has, heretofore, in effect, been soldered to companion metal parts, the methods heretofore known have been fairly complex and expensive to perform. By the useof the method of this invention, an extremely simple and economical method is presented for obtaining the secure bond.

While there has been described what is at present considered the preferred embodiment of this invention, it will beobvious to those skilled in the art that various changes and modifications may be made therein without departing from the invention, and it' is, therefore, aimed;

in theappended claim to cover all such changes and modifications as fall within the true spirit and scope of the invention.

What is claimed is:

A supporting structure in an electron discharge device comprising a ceramic rod with a clean, roughened, unglazed, annular surface area, a sleeve of copper material telescoped loosely oversaid rod and encircling said area; and a silver-type solder filling the annular space between the rod and the sleeve, said solder being Wetted and 4. bonded to. copperofthe: sleeve; and mechanically interlocked without fusion with the roughened ceramic surface of saidarea.

References Cited in the file of this patent UNITED STATES PATENTS 1,871,371 Jackson Aug. 9,

2,163,407 Pulfrich June 20, 19.37 2,333,622 McNab Nov. 2, 1943 2,386,628 Nazzewski Oct. 9, 1945 2,412,836 Rose Dec. 17,1946. 2,434,555 Fischer et' al I an. 13, 1948 2,686,958 Eber Aug. 24, 1954 OTHER REFERENCES Bond-icy: Metallic-Ceramic. Brazed Seals, Electronics, vol. 20, pages 97-99, July 1947.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1871371 *Jul 16, 1929Aug 9, 1932Westinghouse Electric & Mfg CoSolder joint structure
US2163407 *Oct 1, 1937Jun 20, 1939Gen ElectricCeramic-to-metal seal
US2333622 *Feb 16, 1940Nov 2, 1943Westinghouse Electric & Mfg CoMethod of uniting dissimilar materials and the product thereof
US2386628 *Jun 3, 1942Oct 9, 1945Sprague Electric CoGlass-to-metal seal
US2412836 *Aug 5, 1943Dec 17, 1946Rca CorpElectron discharge device
US2434555 *May 16, 1944Jan 13, 1948Westinghouse Electric CorpElectrical insulator
US2686958 *Nov 14, 1950Aug 24, 1954Westinghouse Electric CorpMethod of coating and bonding
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2859512 *Apr 2, 1956Nov 11, 1958Philips CorpMethod of bonding a titanium member to a ceramic surface
US3011013 *Nov 16, 1959Nov 28, 1961Asea AbMethod for connecting concentric members
US3089234 *Feb 1, 1960May 14, 1963Rca CorpMethod of making metal-to-ceramic seals
US3091028 *Sep 2, 1960May 28, 1963Gen ElectricMethod and alloy for bonding to nonmetallic refractory members
US3117003 *Jul 8, 1958Jan 7, 1964Gen ElectricTitanium-zirconium containing brazing material
US3191288 *Sep 9, 1960Jun 29, 1965Quartz & Silice S AMethod of forming assemblies incorporating soldered joints
US3289291 *May 17, 1963Dec 6, 1966Varian AssociatesMethod and material for metallizing ceramics
US3302961 *Apr 14, 1961Feb 7, 1967Philips CorpCompression ceramic-metal seal
US3414964 *Jan 22, 1965Dec 10, 1968Siemens AgMethod for the production of a soldered joint
US3433515 *Jun 29, 1966Mar 18, 1969Gen Motors CorpHigh temperature-pressure metal-to-glass seal constructions
US3628234 *Sep 22, 1969Dec 21, 1971Lucas Industries LtdConnection of metals to ceramics
US3673676 *May 13, 1970Jul 4, 1972Exxon Production Research CoMethod for forming tool assembly
US3736649 *Aug 2, 1972Jun 5, 1973Gen ElectricMethod of making ceramic-to-metal seal
US3776472 *Apr 13, 1972Dec 4, 1973Exxon Production Research CoTool assembly
US4119363 *Mar 18, 1976Oct 10, 1978Bell Telephone Laboratories IncorporatedPackage for optical devices including optical fiber-to-metal hermetic seal
US4509880 *Mar 30, 1981Apr 9, 1985Honeywell Inc.Very high hermeticity glass to metal seal
US4758112 *Jul 22, 1986Jul 19, 1988Isuzu Motors, Ltd.Rotary shaft assembly
US5177806 *Dec 24, 1991Jan 5, 1993E. I. Du Pont De Nemours And CompanyOptical fiber feedthrough
US5364010 *Sep 11, 1992Nov 15, 1994The Morgan Crucible Company, PlcJoining of metal to ceramic bodies by brazing
U.S. Classification403/202, 228/122.1, 403/272, 313/289
International ClassificationH01J19/42
Cooperative ClassificationH01J2893/0005, H01J19/42
European ClassificationH01J19/42