SU1136060A1 - Device for high-temperature testing - Google Patents

Abstract

DEVICE FOR HIGH TEMPERATURE TESTS comprising a heating chamber in the form of an elliptic cylindrical hub rod heater located along one focal axis concentrators grippers for securing is1V | 1tuemogo sample whose axis is placed along the other axis of the concentrator, from l ichayuschees in that, in order to increase the accuracy of of tests by increasing the uniformity of heating along the dpine of the sample, the reflecting surface of the concentrator was made in the entire succession of coefficients of the coefficients of the elliptical The cocks whose eccentricity, starting from the areas adjacent to the major axis of the ellipse, successively increases by 0.05-0.1.

Description

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9D 111360 The invention relates to a test technique, in particular to devices for high-temperature tests. A device for high-temperature tests is known, comprising a heating chamber, a heater located therein, and grippers for fastening the test sample ij. The closest to the invention by technical essence and achievable result is a device for high-temperature tests, containing a heating chamber in the form of an elliptical cylindrical concentrator with a constant eccentricity rod heater placed along one focal axis of the concentrator, and clamps for fastening the test sample, axis which is located along the other axis 2J. A disadvantage of the known devices is the low accuracy of the tests due to the uneven distribution of temperature along the length of the sample. The purpose of the invention is to improve the accuracy of testing by increasing the uniformity of heating along the length of the sample. This goal is achieved by the fact that in a device for high-temperature testing, containing a heating chamber in the form of an elliptical cylindrical concentrator, a rod heater placed along one focal axis of the concentrator and grippers for fastening the test sample, the axis of which is placed along the other axis of the concentrator, the reflecting surface of the concentrator in the form of consistently connected ellipso-cylindrical sections, the eccentricity of which, starting from the sections when the ellipse is poking towards the major axis , Successively increased by 0.05-0.1. FIG. 1 shows a diagram of the proposed device; in fig. 2 - schema-. ma, an explanation of the principle of the alignment of the hub J in FIG. .3 - concentrator, meridional section. The device comprises a base 1, on which the casing 2 with a camera j is mounted. a heating swarm made in the form of an elliptical cylindrical concentrator 3, the reflecting surface of which consists of successively connected ellipso-cylindrical sections 4-7, whose eccentricity, starting from the sections adjacent to the major axis of the ellipse, gradually increases by 0.05-0.1. These areas 4-7 are cut out of the ellipso-cylindrical reflectors 0, and d, each of which has a predetermined eccentricity (Fig. 2). Along one focal axis 8, heaters 9 are installed with parallel displacement relative to this axis. Along the other focal axis 10, clamps (not shown) are fixed to secure the test sample 11. Tubes 12 for cooling the elliptical concentrator 3 are placed in the housing 2 (connected to the refrigerant source) not shown), the device operates as follows. The test sample 11 is fixed in the grippers, the coolant is supplied to the tubes 12 and the electric current is passed through the heaters 9, heating them to a predetermined temperature. The radiant energy emitted by the heaters is reflected from the series-connected ellipso-cylindrical sections 4-7 and is concentrated on the sample 11, heating it to a predetermined temperature. Consecutive increase - By adjusting the eccentricities of 0.05-0.1, a uniform radiant flux is directed to the sample 1 1 from each ellipso-cylindrical section, which contributes to its all-round heating. An increase in eccentricity values of more than 0, 1 or a decrease of less than 0.05 creates a total irradiance of sample 11 in the form of a Gaussian curve, as a result of which irradiation is not even. After heating the test specimen 11 to a predetermined temperature, it is loaded until destruction and the mechanical characteristics are determined by which the properties of the material are judged at high temperatures. The present invention makes it possible to increase the accuracy of testing by increasing the uniformity of temperature distribution along the length of the test specimen, which is achieved by successively increasing the eccentricities of the ellipso-cylindrical sections of the concentrator.

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Claims (1)

DEVICE FOR HIGH-TEMPERATURE TESTS, containing a heating chamber in the form of an elliptical cylindrical concentrator, a rod heater placed along one focal axis of the concentrator, and grips for attaching the test sample, the axis of which is placed along the other axis of the concentrator, which means that, with the aim of increasing the accuracy of tests by increasing the uniformity of heating along the length of the sample, the reflecting surface of the concentrator is made in the form of ellipso-syndical sections connected in series, the eccentricity of which, starting from sections adjacent to the major axis of the ellipse, is successively increased by 0.05-0.1. I> 1 1136060