SU1116344A1 - Device for intrareactor mechanical tests - Google Patents

Abstract

A DEVICE FOR IN-TREATMENT MECHANICAL TESTS, comprising a housing, a strain gauge installed in it, a lock fastened to the housing for fixing the device inside the reactor, a bowl whose bottom is attached to the lock, and placed in the tumbler to fasten the sample, characterized in that, for the purpose of raising productivity by providing faster replacement of samples; a through slotted slot is made on the tube generatrix; the grippers are made in the form of two cylinders, the ends of which are intended to be installed and between them a test specimen, and the device is equipped with a sleeve made of a material without a gap on the cylinders, the linear expansion coefficient of which exceeds the linear expansion coefficient of the shchivdry material and the fixture entering the slot of the glass fixed on one of the cylinders.g

Description

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11 The invention relates to a test technique, in particular to devices for in-reactor mechanical testing. A device for in-core mechanical testing is known, comprising a body, a load placed therein and associated grippers for fastening the test sample U, - The disadvantage of the device is the low accuracy of the tests. The closest to the proposed technical essence and the achieved result is a device for in-core mechanical tests, comprising a housing, a strain gauge installed in it, a lock fastened to the housing for fixing the device inside the reactor, a cup, the bottom of which is attached to the barrel, and placed in In the cup, the grips for fastening the sample are made in the form of a die and a punch 23. The disadvantage of the device is low productivity, since it is not possible to quickly replace the irradiated samples. Because of the time-consuming centering and clamping of the samples in the grippers. The purpose of the invention is to increase productivity by providing faster sample replacement. This goal is achieved by that in a device for in-reactor mechanical testing, containing a case, a strain gauge installed in it, a lock fastened to the housing to fix the device inside the reactor, a cup, the bottom of which is attached to the lock, and the grippers placed in the glass to fasten the sample, There is no through longitudinal groove, grips are made in the form of two cylinders, the ends of which are intended to be placed between the test sample and the device is equipped with a sleeve made of material without a gap on the cylinders. The linear expansion coefficient of which exceeds the linear expansion coefficient of the cylinder material, and the retainer entering the slot of the glass, fixed to one of the cylinders. FIG. 1 schematically shows the proposed device, in FIG. 2 the same, side view. 442 The device includes a housing 1 within which a strain gauge 2 is placed. A boom 3 is installed in the upper part of the housing 1, which serves to move the entire device. A lock 4 is attached to the lower part of the housing 1, designed to fix the device inside the reactor (not shown). On the forming surface of the glass 5 attached by its bottom to the lock 4, a through longitudinal groove 6 is placed. Inside the glass 5 there are placed clamps 7 and 8 with recesses 9 and 10 for mounting the ends of the test specimen 11. The cylinders 7 and 8 are worn without clearance sleeve 12, made of a material whose linear expansion coefficient exceeds the linear expansion coefficient of the material of the cylinders 7 and 8. Vtu Single 12 may also be made of a bimetal or a material having shape memory property. The latch 13, with which the rod 14 of the deflection meter 2 interacts, is attached to the lateral nosepj: - of the lower cylinder 7 and enters the groove 6. On the free end surface of the upper cylinder 8 there is a conical protrusion 15, which enters the recess 16 in the center of the bottom of the cup 5, with the diameter of the recess 16 being equal to the diameter of the protrusion. Between the bottom of the glass 5 and the end of the cylinder 8 is placed a gasket 17 of a material that is compatible with the material of the glass 5 under the test conditions, which prevents the cylinder 7 from fusing to the bottom of the glass 5. The device works as follows. Sample 11 to be tested is installed in the recesses 9 and 10 of cylinders 7 and 8 and their mutual position is fixed with the help of sleeve 12, which is worn on the cylinders by a tight fit. The cylinders 7 and 8 are placed inside the cup 5 and fixed with a clamp 13. The rod 3 is fixed in a manipulator (not shown), with which the device is placed in the channel of the nuclear reactor and fixed in it with a lock 4. Under preliminary compressive loading the cylinders 7 and 8 due to the orientation of the conical protrusion 15 at the end of the upper cylinder 8 and. the recesses 16 are coaxial with the glass 5 position. After reaching pattern 11, set3. Temperatures include a load (not shown) acting on the cylinders 7 and 8, which, due to thermal expansion of the sleeve 12, freely move into it and transmit compressive forces to the sample 11. Measurement 2 through the rod 14, interacting with the latch 13, records the deformation of the sample 11, by which the properties of the metal studied under the conditions of operation of the reactor are judged. When the test temperature decreases, the sleeve 12, cooling down, tightly compresses the cylinders 7 and 8 and eliminates the ingress of fragments of sample 11 into the reactor channel 444. After removing the device from the reactor channel, the lower cylinder 7 is rotated 90 and sample 11 is removed from the glass together with sleeve 12. Because sleeve 12 tightly encloses sample 11, its replacement is simplified and accelerated by remote means. The invention makes it possible to increase the productivity of testing by ensuring the rapid replacement of irradiated samples (the time-consuming centering and securing of the samples is excluded).

Claims (1)

DEVICE FOR INTERNAL REACTOR MECHANICAL TESTS, comprising a housing installed in it from a strain gauge, a lock fastened to the housing for fixing the device inside the reactor, a glass whose bottom is attached to the lock, and grippers placed in the glass for securing the sample, characterized in that, with In order to increase productivity by providing faster replacement of samples, a through longitudinal groove is made on the generatrix of the cup, the grippers are made in the form of two cylinders, the ends of which are designed to be installed between them the test sample, and the device is provided with a worn without clearance on the cylinder sleeve of a material whose coefficient of linear expansion greater than the coefficient of linear expansion rial cylinder and projects into the retainer slot kana attached to the prefecture of the cylinders. zht> 1 116344