SU981869A1 - Article thermal stability determination method - Google Patents

Description

(54) METHOD FOR DETERMINING THERMAL RESISTANCE

PRODUCTS

 1 The invention relates to mechanical tests, in particular to methods for determining the thermal stability of products. A known method for determining the heat resistance of products, which means that the product is subjected to thermal shock from a heat source and record the level of acoustic emission, which is judged by the heat resistance of the product. Since the acoustic emission is a consequence of the occurrence of structural disturbances, the method makes it possible to estimate the amount of structural disturbances that have arisen in the product with one or any given number of thermal shocks ij. However, the known method is characterized by insufficient accuracy in determining the heat resistance due to the dependence of the test results on the history of the product. For example, Mechanical or thermal effects previously transferred to the product affect the acoustic emission performance during the test and introduce uncertainty into the measurement result. -. The purpose of the invention is to improve the accuracy of determination. This goal is achieved due to the fact that dornacHo is a method for determining the heat resistance of products, which evaporates. c that the product is subjected to thermal shock from a heat source and the level of the acoustic emission signal is recorded by which the heat resistance of the product is judged, the latter is additionally subjected to a preliminary thermal shock of lesser intensity, while the orientation of the product relative to the heat source is kept constant thermo shock. The method is carried out in the following manner. Before the test, the article is subjected to preliminary thermal shock, which is intended for scaling in a material with a stable level of thermomechanical internal stresses. The intensity of the pre-thermal shock 398 is chosen such that the thermal mechanical stress caused by its effect exceeds the stress that arises in the product earlier as a result of mechanical, thermal and other influences which it experienced during processing, storage or service. (The level of internal stresses created in this way in the product will then be the outcome, pj. After this, the product is subjected to a test thermal shock, the intensity of which is higher than the intensity of the preliminary thermal shock. The orientation of the product with respect to the heat source must remain unchanged. Distribution of the stresses in the product is the same for both thermal shocks. At the same time, the level of the acoustic emission signal is recorded, which is taken as a measure of heat resistance Thus, the acoustic emission parameters recorded with a test thermal shock exceeding the preliminary thermal shock intensity are determined by the increment of the intensity of the heat of the impactor and reflect the properties characteristic of the product regardless of the previous external influences from them, the Method improves the accuracy of thermal resistance products by eliminating the effect on the test results of external influences, transferred by the product earlier, Form of the invention product capacity, which means that the product is subjected to thermal shock from a heat source and the level of the acoustic emission signal is recorded, by which the thermal resistance of the product is judged, due to the fact that, in order to improve the determination accuracy, the product is additionally subjected to preliminary thermal shock , while the orientation of the product in relation to the heat sink is kept constant during both thermal shocks. Sources of information taken into account during the examination 1. Problems of strength, 1972, Ms 4, p. 119--120, (prototype).

Claims (1)

Claim The method for determining the heat resistance of products, which consists in the fact that the product is subjected to thermal shock from a heat source and the acoustic emission signal is recorded, which is used to judge the heat resistance of the product, characterized in that, in order to increase the accuracy of determination, the product is additionally subjected to preliminary thermal shock of lower intensity, while the orientation of the product with respect to the heat source is kept constant during both thermal shock.