Electricity: conductors and insulators – Insulators – With insulator-supporting or attaching means
Reexamination Certificate
2002-10-02
2003-12-02
Reichard, Dean A. (Department: 2831)
Electricity: conductors and insulators
Insulators
With insulator-supporting or attaching means
C174S142000, C174S1520GM, C428S632000, C156S089250
Reexamination Certificate
active
06657129
ABSTRACT:
FIELD OF THE INVENTIONS
The invention relates to a method and a device for fixing a ceramic component in a metallic support. A ceramic component of this type is, for example, the ceramic insulating bush for the high-voltage ignition conductor which is arranged in the ignition torch of a gas turbine.
BACKGROUND OF THE INVENTION
It is known prior art to use ceramic adhesives to cement insulating bushes made of Al
2
O
3
in the metallic support of the ignition torch of a gas turbine. The insulating bushes insulate the high-voltage ignition conductor from the metallic support.
To ensure a good connection between the metallic support and the insulating bushes, heat curing of the adhesive must take place.
This known type of fastening of ceramic insulating bushes in a metallic support has a series of disadvantages. On the one hand, the ceramic adhesive is very difficult to introduce into the intermediate space between the insulating bush and the metallic support. Sometimes it must be injected into the intermediate space with a syringe, which is difficult to handle. The ceramic adhesive used requires a very narrow gap. This has unfavorable effects on assembly. On the other hand, the adhesive shrinks considerably during curing (by about 20 to 30%), which leads to a reduction in the adhesive, with the result that the bush is often cemented only poorly in the metallic support and the adherence is inadequate.
SUMMARY OF THE INVENTION
The invention is based on the object of eliminating these disadvantages of the known prior art and developing a method for fixing a ceramic component in a metallic support and a device for this purpose which is easy to handle, always ensures good adherence between the ceramic component and the metallic support and is available inexpensively and everywhere.
According to the invention, this is achieved in the case of a method for the fixing of a ceramic component in a metallic support by a bush consisting of gray cast iron with lamellar graphite being placed around the ceramic component in a first method step, the ceramic component including the bush being annealed at temperatures in the range from 500 to 750° C. in a second method step, until the bush has an increase in volume as a result of internal oxidation that causes the ceramic component to be permanently fixed by shrinkage and, after cooling down, the ceramic component with the bush being introduced into the metallic support and secured in the support.
According to the invention, this is achieved in the case of a device for the fixing of a ceramic component in a metallic support by the device comprising a bush which is produced from gray cast iron with lamellar graphite and is arranged at those locations of the ceramic component at which the ceramic component is to be fixed in the metallic support, the ceramic component being fixed in the bush by shrinkage on account of internal oxidation of the gray cast iron with lamellar graphite. The ceramic component is, for example, an insulating bush for a high-voltage ignition conductor which is arranged in the ignition torch of a gas turbine.
The advantages of the invention are that a permanent connection can be produced by a simple annealing operation, without special assembly know-how being necessary. Since the increase in volume of the gray cast iron occurs only where oxygen enters during the annealing operation, uniform surface pressure occurs between the ceramic component and the bush made of gray cast iron. A self-healing effect advantageously occurs, because at temperatures above 500° C. the oxidation recommences where the connection has loosened. It stops where no more oxygen enters. In this way, very good adherence is achieved. Finally, it is also an advantage of the invention that the connection can be nondestructively released again at high temperature (about 700 to 800° C.) by pressing out.
It is expedient if the annealing of the ceramic component including the bush made of gray cast iron with lamellar graphite is carried out at a temperature of approximately 700° C. At this temperature, the internal oxidation takes place in a comparatively short time, which has favorable effects on production costs.
It is also advantageous if the bush made of gray cast iron with lamellar graphite is secured in the metallic support by center punch marks on the support. This is a simple and quick method.
It is also of advantage if GG 20-25 is used as the material for the bush, because this material is available everywhere and is comparatively inexpensive. What is more, the graphite flakes are open toward the outside, so that in this way oxygen is brought into the material, making the internal oxidation and the associated increase in volume possible in the first place.
Finally, it is expedient if glass ceramic with a similar modulus of elasticity and coefficient of thermal expansion as the bush made of gray cast iron with lamellar graphite is used as the material for the ceramic component, because in this way no additional longitudinal stresses are produced in the ceramic in the event of temperature changes.
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Alstom (Switzerland Ltd
Burns Doane Swecker & Mathis L.L.P.
Nino Adolfo
Reichard Dean A.
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