DE1088199B - Metal body for gas-tight connection with silicate insulating materials - Google Patents

Description

The invention relates to metal bodies for gas-tight connection with silicate insulating materials.

It is known that the bulb of an electrode tube is composed of insulating and conductive parts whose connection points must be completely gas-tight.

If the thermal expansion coefficient of the insulating material and the conductive part are different, mechanical stresses occur when the temperature of the piston changes. These can be so big that the piston breaks near the joint. The aim of the invention is that Eliminating this disadvantage.

According to the invention, this is done by using a metal body which is characterized by a stack of alternating layers of at least two metals that have different coefficients of thermal expansion have, wherein the coefficient of thermal expansion of one metal is greater and that of the other metal is less than the coefficient of thermal expansion of the insulating material in question, and the two metals have different elasticities possess, with the ratio of their moduli of elasticity inside the area in question the operating temperature remains approximately constant.

An example embodiment of the invention is shown in the drawing. In it shows

1 shows a "sandwich" produced according to the invention and

FIG. 2 shows a sealed connection according to the invention using the "sandwich" shown in FIG.

In Fig. 1 of the drawing is a formed approximately in the manner of plywood stack of alternately arranged Metal layers shown, and that this stack consists of a metal 18 with large Coefficient of thermal expansion and made of a metal 17 with a low coefficient of thermal expansion, wherein it is believed that the latter metal is the more ductile.

If the temperature of the "sandwich" changes, metals 17 and 18 are expanded to different degrees, their expansions counteracting each other. The metal that will expand the most would, if it were alone, be held back by that metal, which if it were alone would be present, would expand the least, while this in turn of the former metal is stretched. The entire arrangement therefore has a coefficient of thermal expansion that is between the two coefficients of thermal expansion of the individual metals.

It has been found that in order to achieve a coefficient of thermal expansion equal to the value

Metal body for gas-tight connection with silicate insulating materials

Applicant:

Compagnie Generals de Telegraphie sans FiI, Paris

Representative: Dipl.-Ing. E. Prince and Dr. xer. nat. G. Hauser, Patent attorneys, Mündien-Pasing, Bodenseestr. 3 a

Claimed priority: France of March 29, 1957

Jean Montgaillard, Paris, has been named as the inventor

ol _{c of} the ceramic insulating material used, the ratio of the thicknesses of the two metals must have the following value:

Here, e _{t is} the total thickness of the layers of the material with the coefficient of thermal expansion a _x and the modulus of elasticity M ₁ , and e ₂ is the total thickness of all layers of the material with the coefficient of thermal expansion a ₂ and the modulus of elasticity M ₂ .

It is also desirable that the expansion curves of each of the "sandwich" forming materials and the insulating material are similar to each other, d. H. that they are approximately equal in size and in the same direction should own. Finally, the ratio of the moduli of elasticity of the two metals in be as constant as possible in the temperature range in question.

If one of the metals is more ductile than the other, it is useful that the outermost layers exist the "sandwich" made of the more flexible metal.

Consider the case of a ceramic insulating material whose thermal expansion coefficient lies between 5-10- ⁶ and ll-lo-fi. The metal with a low coefficient of thermal expansion used to form the "sandwich" can then be molybdenum, tungsten, tantalum or an iron-nickel-cobalt alloy, while the metal with a high coefficient of thermal expansion is nickel, copper, titanium

009 589/212

I 088199

Iron-chromium alloy or an iron-molybdenum-cobalt alloy can be used.

In Fig. 2 a tight connection is shown in which the stack shown in Fig. 1 is used, to seal one of the openings of a ceramic tube 2 of any diameter. The in touch with the ceramic material 2 standing layer 17 consists of the more stretchable and extensible Metal, so that the effect of any residual stresses still present in the connection is ίο is sided.

It is evident that more than two metals are also used to form the alternating layers can be.

Claims (4)

Patent claims: 1. Metal body for gas-tight connection with silicate insulating materials, characterized by a stack of alternating layers of ao at least two metals that are different Have coefficients of thermal expansion, the coefficient of thermal expansion of a metal larger and that of the other metal smaller than the coefficient of thermal expansion of the Insulating material in question is, and the two metals have different elasticity, wherein the ratio of their moduli of elasticity in the relevant operating temperature range remains roughly constant. 2. Metal body according to claim 1, characterized in that the stack has a coefficient of thermal expansion a _c which is given by the following formula: e ₂ M ₁ ((Jt ₁ - a _c ) % M ₂ (a ₂ - a _c ) where e _x and e _{2 are} the respective total thicknesses of the layers of the two metals used, Ct ₁ and a _{2 are} the coefficients of thermal expansion of these metals and M ₁ and M _{2 are} the moduli of elasticity of these metals. 3. Metal body according to claim 1, characterized in that the for the production of the stack metals used are chosen so that their expansion curves and the expansion curve of the insulating material have similar and rectified curvatures. 4. Metal body according to one of the preceding claims, characterized in that the outermost layers of the stack are made of the more ductile metal. For this -1. Sheet drawings © 009 589/212 8.60