SU954875A1 - Method of determination of the largest thermal effect endured by an article - Google Patents

Description

The invention relates to non-destructive testing and can be used to determine the quality of products operating under thermal stress.

There is a method of determining the parameters of the greatest mechanical stresses carried by the product, which consists in loading the product and determining the magnitude of the load at which acoustic emission signals appear.

The disadvantage * of this method is that it · does not provide the ability to determine the maximum thermal effects transferred by the product.

Closest to the technical essence of the invention is a method for determining the parameters of the greatest thermal effects transferred by the product, which consists in loading the product with a calibrated load of increasing intensity and recording the value of the load at the time of acoustic emission signal appearance, 'by which the thermal effect parameters are determined {2. ].

The disadvantage of this method is the low accuracy of determining the parameters of the greatest thermal shock, since their value is determined in the interval between the load at which acoustic emission signals appeared and the preceding load, the value of which increases discretely.

The purpose of the invention is improving accuracy.

This goal is achieved by the fact that in the method for determining the parameters of the greatest thermal effect 20 transferred by the product, it consists in loading the product with a calibrated load of increasing intensity and recording the value of the load at the moment of the appearance of acoustic emission signals, from which the thermal influence parameters are determined. additionally load the product in at least. in one direction different from the main one and record the load value at the time of the appearance of acoustic em SMAI, counting module zaregis.trirovennyh load and take it. the value for the largest value of the thermal effect, and the direction of the thermal effect is determined by the ratio recorded on g load.

The method is as follows.

• ·> To the test subject · the product is applied sequentially in different directions, an "external gradually increasing load." For a cube-shaped sample, for example, an external load is applied to faces. During loading, the load value is fixed. ki for each direction at the time of the appearance of AE signals. The largest increase in the previously tested thermal is: '<whom the impact is judged by the modulus of the fixed values of the load values, and its direction - by the ratio of these values. So, for a flat stress state

In the case when it is required to determine only the value of the thermal effect, the test sample is subjected to comprehensive loading (for example, hydrostatic compression). With a gradual increase in mechanical load, a value is fixed at which a sharp increase in AE is observed. The recorded value of the mechanical load is a measure of the thermal effect.

Thus, the proposed dispute can improve the accuracy ’15 determine the parameters of thermal effects · transferred by the product.

Claims (1)

Claim The method of determining the parameters of the greatest thermal effects transferred by the product, which consists in the fact that they load 25 izdelie'tarirovannoy load Naras melting instonsivnosti and register 'load value at the time the acoustic emission signals, which is determined by para30 meters thermal effect on τη', and 'h and w w I s with the fact that, with the n * ^p > H 4 ' ^g " ^e % ^and h Fixed load values in two directions; an angle showing the direction of the thermal effect; the magnitude of the greatest thermal effect. in order to increase the accuracy further load does not less than one, distinct from the core, and the direction register ³⁵ with the value of the load at the moment of signalov'akusticheskoy emission count module member 'GOVERNMENTAL loads and take its value for the highest value of one exposure termiches ⁴⁰ , and the direction of the thermal impact is determined by the ratio of recorded loads. The obtained values of the stress and angle moduli are the initial ones for determining the quantitative characteristics of the thermal action based on the known relations of the theory of thermoelasticity.