SU917069A1 - Ampoule for corrosion testing of radioactive material specimens under elevated temperatures (its versions) - Google Patents

Description

(5) AMPULE FOR CORROSION TESTS OF SAMPLES OF RADIOACTIVE MATERIALS WITH INCREASED

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The invention relates to testing equipment, in fairness, to ampoules for corrosion testing of samples of radioactive materials at elevated temperatures.

A well-known ampoule for corrosion testing of samples of radioactive materials at elevated temperatures, comprising a cylindrical body with a flange and a lid pressed against the flange with bolts and nuts, and a platform with grips placed in the body for fastening the test samples 1.

The lack of an ampoule is the difficulty of its operation due to the need to unscrew a large number of nuts under conditions of radioactive exposure.

The purpose of the invention is to improve the operating conditions by providing automation to press the cover to the body.

This goal is achieved by the fact that in an ampoule for corrosion testTEMPERATURES (ITS OPTIONS)

TENTRIES of samples of radioactive materials at elevated temperatures, containing a cylindrical body with a flange and a lid and a platform with grips placed in the body for attaching the samples, in the first embodiment, the lid is made in the form of a cup, the stops on the outer surface of the body are uniform, and the amp10 la is equipped with clamps according to the number of stops, made in the form of bimetallic plates, cantilever mounted along the butt end of the glass with the ability to interact with them

15 from heating bending with stops, and in the second embodiment, the casing is made in the form of two coaxial chambers of different diameter, the lid is placed on the chamber of smaller diameter, and

The 20 ampoule is equipped with an elastic membrane fixed along the perimeter on the inner wall of the chamber of large diameter, and dividing it into two parts. and a rod mounted along the common axis of the chambers on which the platform is mounted, fixed in the middle part of the membrane and connected to the lid with a locking joint. FIG. 1 shows an ampoule diagram, the first embodiment; in fig. 2 - node I in FIG. 1 at the moment of interaction of the pressing p with an emphasis during heating; in fig. 3 scheme described ampoules, the second option. The ampoule in the first embodiment contains a cylindrical body 1 with a flange 2 fixed on it, in which an annular recess is made 3 d

placing a sealing gasket therein. On the flange 2 there is a cover 5, made in the form of a cup, on the inner surface of the bottom of which an annular protrusion 6 is made, which enters the annular recess 3. And on the outer surface of the bottom there is a fixed lever 7. On the outer surface of the housing 1 there are uniformly spaced stops 8, and clamps 9 are fixed along the end of the cover 5; the number of which is equal to the number of stops 8. Clamps 9 are made in the form of bimetallic plates, which allows the clamps 9 to interact when they are bent from heating with stops 8. The board is placed in case 1 The shape of slots 11, 10 for securing the test specimens 12. The ampoule of the second embodiment comprises tsilind | 5ichesky housing 1 with a flange 2 mounted thereon, wherein an annular groove 3 for accommodating therein a sealing gasket kitsey i. A flange 2 is fitted with a cover 5, made in the form of a stank, on the inner surface of the bottom of which an annular projection b is made, which enters the annular recess 3. The cylindrical body 1 is made in the form of two coaxial chambers 13 and 14 of different diameters, with the cover 5 being placed on A smaller diameter chamber 13, in the wall of which a fitting 15 is installed. An arch membrane 16 placed in a chamber l of larger diameter and fixed on its inner wall divides chamber 4 into two parts. Inside the housing 1 there is installed a common axis of the chambers 13 and T4 rod 17 fixed in the middle part of the membrane 16, the end of which is connected to the lid 5 by means of a locking connection consisting of a bayonet lock 18 and a pin 19 included therein, and another the end is connected through tgu

Claims (2)

the flange 2 and rotate it until the clamps 9 are under the stops 8. Then the vial is heated to a predetermined temperature, as a result of 20 with a loader (not shown). In the upper part of the stem 17, a platform 10 is fixed with sockets 11 for fastening the test samples 12. The ampoule in the first embodiment works as follows. Samples 12, made of radioactive materials and subject to testing, are fixed in the slots 11 of the platform 10 with a manipulator (not shown). Raise the cover 5 with the lever 5 by the lever 7, orient it relative to the housing 1 so that the clamps 9 are in between stops 8, lower the cover 5 on which the clamps 9 are bent by the free END towards the stops 8 due to the difference in the thermal expansion coefficients of the bimetal plates, resulting in a uniform preload of the cover 5 to the flange 2 of the housing 1, providing compoundness of the compound. After heating the body 1 ampoule to a predetermined temperature, it serves a corrosive corrosive medium and holds the specimens in it for a predetermined time. Ampoule in the second version works as follows. With the help of a loading device, the tug 20 is moved upwards, as a result of a resilient membrane 16 also bends upwards, and the platform 10 is higher than the flange 2. Samples 12 made of radioactive materials are placed on the platform 10 using a manipulator (not shown) and the cover 5 is installed on the rod 17 so that the pin 19 attached to the lid 5 enters the bayonet lock 18 of the rod 17 and rotates the lid 5 by 90 ° to connect it to the rod 17. With the help of a loading device, the thrust rod 20 is moved downwards, resulting in a platform 10 seconds Samples 12 are affected internally. and chambers 13 of a smaller diameter, and the lid 5 is pressed To the flange 2 mounted on it. Through the fitting 15 into the chamber 13, and from it into the chamber 14 is fed under pressure a corrosive environment heated to a predetermined temperature. When the pressure in the ampoule is created on the lid 5, additional forces begin to act, pressing it to the 5 flange 2, since the area of the membrane 16 located in chamber k is larger than the area of the cover 5 placed on chamber 13. The ampoule allows to significantly improve its operating conditions. by providing automation under the cover of the cover to the body, which provides a more reliable preload of the cover and makes the ampoule safer during its operation. Claim 1. Ampoule for corrosion testing of samples of radioactive materials at elevated temperatures contains a cylindrical body with a flange and a lid and a platform with grips placed in the body for attaching the test samples, characterized in that, with the aim of improving the operating conditions by ensuring the automation of pressing the lid to the body, the lid is made in the form of a glass, on the outer surface of the body there are uniformly placed lugs on it, filled in the form of metal plates, cantilevered 9 "fixed along the butt end of the glass with the possibility of interaction when they are bent from heating with stops. 2. Ampoule for corrosion testing of samples of radioactive materials at elevated temperatures, containing a cylindrical body with a flange and a lid and a platform with grips housed in the body for attaching the test samples, in order to improve the operating conditions by ensuring that the cover is automated to the case, the case is made in the form of two coaxial chambers of different diameters, the lid is placed on the chamber of a smaller diameter, and the ampoule is equipped with an elastic membrane fixed along the perimeter to the inner the wall of the chamber of larger diameter and dividing it into two parts, and the rod mounted on the common axis of the chambers on which the platform is placed, fixed to the middle part of the membrane and connected to the lid by means of a locking joint. Sources of information taken into account in the examination of T. Rosenfeld I.L. and Zhigalov K.A. Accelerated methods of corrosion testing of metals, M., Metallurgists, 1366, p. 327-337 (prototype) 11 12 // phage. one