SU595580A1 - Multiscreen heat insulation - Google Patents

Description

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7. Carbide particles 2 with an irographite coating 3 serve as a separator; the same coating 4 is also provided on the screens. Screens o-6 are connected around the rim with hermetic joints formed, for example, with Pomon, diffusion welding. In order to increase the thermal stability of the package as a whole, the convenience of its plastic molding and calibration, it is advisable to make relatively thin nakati, consisting, for example, of five screens with a total thickness of 0.5-1.0 mm. In such a design, occasional cracking of any screen or patch does not lead to a serious impairment of the performance of the entire insulation. In order to form a vacuum in the package cavity or to fill it with an inert gas, the joints of the packages are welded, respectively, in a vacuum or inert gas.

For heat transfer through thermal bridges, creating welded joints, the packages in the grids are shifted relative to each other in the longitudinal and non-nodal bridges.

Example. An experimental multi-screen cylindrical insulation, consisting of eight semi-cylindrical screens with a thickness of 60 microns each, is made from a solid solution of ZrosNboiC and a separating hole made of the same material. The screens are made by rolling a mixture of Zro6iNbo4C powder with a particle size of less than 1 micron, plasticized with a solution of rubber in gasoline with a subsequent sintering at. On one of the surfaces of each screen is a layer of ZrogNbo C powder with a particle size of about 40 microns. The final shape and size of the screens were obtained by co-forming and calibrating the entire package of 2700 ° C iri screens. The internal diameter of the insulation is 25 mm, the external diameter is 27.5 mm, the thickness of the package is 1.25 mm. The thermal conductivity of this isol 4

Measured in argon, it is 0.04 W / m-degree at 900 ° C and 0.25 W / m-degree at 2000 ° C.

The proposed multiscreen theilization compared with the known insulations of this type provides an increase in the operating temperature of the insulations up to 3000-3500 ° K due to the use of screens from solid solutions of especially refractory carbides with a temperature of over 3500 ° K especially in the region of temperatures above 2000 ° K due to low sintering and the preservation of point

contacts between the particles of the powder separator and screens.

Claims (2)

1. Multiscreen heat insulation, containing foil screens, between which separators are located, characterized in that, in order to increase the operating temperature to 2500-3500 ° K and prevent the separator and screens, the foil screens are made of solid solutions of refractory metal carbides, for example zirconium and niobium carbides, zirconium and tantalum, hafnium and tantalum with contents in each of them from 20 to 80 mole.% Simple carbide. 2. Thermal insulation of paragraph 1, characterized in that the screens are made with pyrographic coating, and the separators are made in the form of particles equipped with pyrographite coating. Sources of information taken into consideration in the examination 1. Author's certificate of the USSR No. 235068, cl. From 21D 9/00, 1967. 2. USSR author's certificate No. 261407, cl. F 16L 59/08, 1963. C "(8 ... (® ® (D ® ® / ® ® ® ® CPuz.2