SU1441296A1 - Method of quality control of articles - Google Patents

Abstract

The invention relates to methods for non-destructive testing of acoustic emission signals and can be used to control the quality of products made of ceramic materials. The purpose of the invention is to increase the reliability of the results of quality control of products made of ceramic materials by taking into account the material fragility parameter. Samples of the material of the products are subjected to bending tests, during which the measure of the fragility of the material is determined. The controlled product is loaded at a constant speed, acoustic emission signals are recorded, the total count of acoustic emission pulses is measured at discrete points in time, the dependence of the latter on the magnitude of the load is determined, and it is approximated in logarithmic coordinates by a straight line. Depending on the measure of material brittleness, the product is considered defective if the slope of this straight line is substantially greater or correspondingly substantially less than the set value for defect-free products.

Description

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The invention relates to methods for non-destructive testing of acoustic emission signals and can be used to control the quality of products made of ceramic materials.

The aim of the invention is to increase the reliability of the results of quality control of products made of ceramic materials by taking into account the fragility of materials;

The method of controlling the quality of the product in relation to products made of ceramic materials is implemented as follows.

Several specimens are cut out of the material of controlled products, which are subjected to bending tests up to their destruction. In the process of these tests, the deformation diagrams of the samples are determined. In coordinates, stress-deformation, which determines the average value of the material embrittlement X;

about. P - W

G t.p

Inp

2E j f (e) de

7

where is P

the specific energy accumulating in the material at the time of its destruction

W

etc

- etc ()

specific energy j is expended on deforming a material until its destruction; stress in a material by the moment of its destruction |

material modulus

deformation of the material at the time of the destruction of J, the dependence of the stress on the amount of deformation in the material.

Several products from a controlled batch are mechanically loaded at a constant rate until the moment of their destruction. In the process of loading, data on the load applied to the product and the total acoustic emission account are recorded. From these data, the average value of the ultimate mechanical stresses is estimated and the dependences of the total acoustic emission score on the mechanical stress are determined; jumps in logarithmic coordinates. The semi-dependencies are approximated by straight lines and the parameter n, characterized by the tangent of the angle of inclination of these dependencies to the abscissa axis, is determined:

about uln N

 SG MPS

where the increase in the logarithm of the magnitude of the stresses in the material

products i

uln N - increment of the logarithm of the value of the total pulse count of acoustic emission. The value of this parameter is averaged.

for all tested products with the exception of those that failed at stresses that were significantly lower

the mean value of the limiting stresses, thus obtaining the mean value of the parameter n1 for defect free products. The controlled product is subjected to mechanical loading.

at the same speed up to the load necessary to register a sufficient number of acoustic emission signals, and determine the dependence of the total pulse count of acoustic emission on the magnitude of the load applied to the product. This dependence, approximated in logarithmic coordinates by a straight line, determines the tangent of the angle of inclination ng for the tested product. The defectiveness of the product is judged by the parameter P0, taking into account the measure of the fragility of the material. If the brittleness measure value is 8, then the product is considered defective in the case when, taking into account the root-mean-square spread, the parameter n defined for this product substantially exceeds the value of n set for defect-free products. In the case when the product material is characterized by a measure of fragility%% i 0.8, the defectiveness of the product is judged by a significant decrease in the parameter n with respect to the value of P0.

Thus, by taking into account the magnitude of the measure of fragility of ceramic materials, the method of controlling the quality of products allows in more detail in the feature space to identify the area of recognition of defective products, which reduces the likelihood of false rejection of defect-free products and increases 314

em reliability of quality control results ..

Claims (1)

Invention Formula The method of quality control of the product, concluding that the product is loaded at a constant speed, the acoustic transmission signals are recorded, the total pulse count of the acoustic transmission is measured at discrete points in time, the dependence of the total pulse count of the acoustic emission on the load is determined and the slope of the slope of this dependence in logarithmic coordinates ve product, characterized in that, in order to improve the reliability of the results in the quality control of products made of ceramic materials, samples of the material of the product are additionally used, which are subjected to bending tests, determine the value of the measure of fragility of the material, and the quality of the product is judged by the sign of the change in the value of the tangent of the angle of inclination of the total pulse count of acoustic emission versus the load value in logarithmic coordinates taking into account the measure of the fragility of the material of the product.