SU1180692A1 - Method of determining level of residual strain - Google Patents

Abstract

A METHOD FOR DETERMINING THE LEVEL OF RESIDUAL VOLTAGES, which consists in stimulating a change in the value of the acoustic emission of a product by a change in temperature. this change is recorded and the level of residual stresses is determined by its value, characterized in that, in order to increase the accuracy and performance of the method, the determination of tensile residual stresses is cooled, and the definition of compressive residual stresses is heated by a thermal shock, control the temperature difference of this area and the main mass of the product, reveal the presence of acoustic emission at a temperature difference equal to the ratio of the difference of the limit (O yield strength and d admissible limit internal stresses to the product of the coefficient of linear expansion of the first kind to the module of elasticity of the material of the article, and the presence of the acoustic emission determined prevsh1enie level of residual stress over a given margin of internal stresses.

Description

1 The invention relates to non-destructive testing of metals and can be used in any field of engineering. The aim of the invention is to improve the accuracy and performance of the method. The drawing shows the block diagram of the device that implements the method. The device contains a piezoelectric sensor 2 placed on product 1, an acoustic emission recorder 3, the input of which is connected to the output of sensor 2, a reading unit 4, a thermocouple 5, one of the inputs of which is connected to the output of the recorder 3, is digitized analog-to-digital converter 6, the input of which is connected to the thermocouple 5, and the output to another input of the digital printing unit 4, and the source 7 of the temperature effect on the product, which, in the case of determining tensile stresses STRK Chiva accelerated cooling of the article, and in the case of determining the compressive stress - accelerated HEAT vanie article. The method is carried out as follows. An acoustic emission sensor 2 and a thermocouple 5 are mounted on the product to be monitored and the source of temperature influence 7 is in contact with the surface of the product. In the case of the determination of the compressive stresses, the source 22 may be a tire from a heat-conducting metal, such as copper, one end of which is in contact with article 1 and the other end is lowered into a Dewar vessel with liquid nitrogen. In the case of determining a compressive stress, any type of electric heating element can be used as the source 7. The source 7 must create on the product 1 a temperature differential between the area in which thermal shock is created and the main mass of the product exceeding the ratio of the difference in yield strength and the permissible limit of internal stresses to the product of the linear expansion coefficient and the modulus of elasticity of the product material type 1. The temperature is controlled by readings of thermocouple 5 and at the same time fix the beginning of the occurrence of acoustic emission. If the emission occurs at a temperature less than the specified ratio, then the excess residual stresses over the specified allowable limit of internal stresses are recorded. In this case, the product should be sent for re-annealing to relieve internal stresses. The use of the proposed method makes it possible to organize an express analysis of the level of residual stresses on the products directly in the process stream during their manufacture and thereby increase the quality and durability of the manufactured products.

Claims (1)

METHOD FOR DETERMINING THE RESIDUAL VOLTAGE LEVEL, which consists in stimulating a change in the value of acoustic emission, recording this change and determining the level of residual stresses by its value, so that, in order to increase the accuracy and the performance of the method, when determining tensile residual stresses, it is cooled, and when determining compressive residual stresses, a limited portion of the surface of the body is heated by thermal shock, the temperature difference between this section and the main Asses of the product reveal the presence of acoustic emission at a temperature difference equal to the ratio of the difference between the yield strength and the allowable limit of internal stresses and the product of the linear expansion coefficient by the first-kind elastic modulus internal voltage of the product by a change in temperature, ny. _na SU -, ...! 180692 1 1180692 2