SU1177737A1 - Multielement transducer for magnetic flaw detector - Google Patents

Abstract

MULTI-ELEMENTAL TRANSFORMER TO A MAGNETIC DEFECTOR, containing n sensitive elements arranged in a chain form symmetrically relative to the center of the converter, characterized in that, in order to improve the metrological characteristics of the converter, its sensitive elements are placed one relative to the other with an uneven pitch that at 6 n i 9 is determined by the ratios 1, 2, 3 h; h. K where h; - the step between the i-th and (i + 1) -M elements, starting from the extreme K, 0,011p2 o, 376p + 2,695; i K -0.032p2 + 0.556p - 1.024; (LK, -0.0122n2 + 0.258p - 0.116 h 00 s |

Description

The invention relates to non-destructive testing and can be used to convert magnetic scattering fluxes during flaw detection of flat ferromagnetic objects. The purpose of the invention is to improve the metrological characteristics of the converter. The drawing shows the proposed converter. The multi-element transducer contains n 8 sensing elements 1–8, arranged in a chain form symmetrically relative to the center of the transducer and placed one relative to another with an uneven pitch h; - where h. - the step between the i-th and--th elements, starting from the edge of it, K, 0.11 n 2 - 0.376 n + 2.695; K -0.032p2 + 0.556p - 1.024; to -0.012п2 + 0,258п - 0,116. in accordance with the indicated ratios, steps h. for an eight element transducer, they are defined as follows. Due to the symmetry of the positioning of the sensing elements, it is required to determine the distances only between the sensing elements 1-5, and the distances between the sensing elements 5-8 are determined on the basis of the symmetry. For example, the distance between the sensitive elements 1 and 2 is equal to the distance between the sensitive elements 7 and 8. As a result of the calculation using the specified formulas for n 8, we have the following coefficient values: K 0.41; Kj 1.37- K 1.17. The length P of the multi-element transducer is determined on the basis of the width of the product being tested. So, with 1 40 cm, the steps between the sensitive elements are as follows: h4 2.3 cm, h 7.8 cm, h 6.6 cm, h4 6.6 cm, hj 6.6 cm, h 7.8 cm, h 2.3 cm. The multi-element converter works as follows. The output of the multi-element transducer is determined by the sum of the signals of the sensing elements 1-8. The placement of the latter is done in such a way that when the defect is moved along the chain of sensitive elements 1-8, the output signal of the multi-element converter is changed by the smallest possible value. This allows one to improve the metrological characteristics of a multi-element transducer, since its signal in the monitoring process is less dependent on the position of the defect relative to the center of the multi-element transducer. The control process consists in scanning the surface of the object being monitored with a multi-element transducer and registering its output signal due to the magnetic fluxes of the scattering. The magnetization of the object being monitored and the registration of the output signal are performed in a known manner using a magnetic flaw detector.

Claims (1)

MULTI-ELEMENT CONVERTER TO A MAGNETIC DEFECTOSCOPE containing η sensitive elements arranged in a chain 'symmetrically with respect to the center of the converter, characterized in that, in order to improve the metrological characteristics of the converter, its sensitive elements are placed one relative to the other with an uneven step, which at 6 ί η i 9 is determined by the relations h; = h ·· K ;, i = 1, 2, 3 where h; - step between the i-th and (1 + 1) -th elements, starting from the extreme K ₍ = 0.011η ² - 0.376p + 2.695; K ₂ = -0.032p ² + '0.556p - 1.024; K ₃ = -0.012p ² + 0.258p - 0.116. SU-C, 1177737 1 1177737 2