SU1670437A1

SU1670437A1 - Method and apparatus for determining stress intensity in ferromagnetic materials

Info

Publication number: SU1670437A1
Application number: SU894707976A
Authority: SU
Inventors: Вадим Алексеевич Юрченко; Сергей Николаевич Минаков
Original assignee: Киевский Политехнический Институт Им.50-Летия Великой Октябрьской Социалистической Революции; Дальневосточный политехнический институт им.В.В.Куйбышева
Priority date: 1989-06-22
Filing date: 1989-06-22
Publication date: 1991-08-15

Abstract

Изобретение относитс к приборостроению и позвол ет повысить точность измерени интенсивности механических напр жений в ферромагнитных материалах. Магнитоупругий преобразователь 1 в виде двух разновысоких крестообразных электромагнитов устанавливают на эталонный образец и ориентируют его в продольном направлении. Намагничивают образец в направлени х, составл ющих угол 45° между собой. Дл этого обмотки возбуждени подключают к источникам 3, 4 переменного напр жени с частотами F₁ и F₂ соответственно. Измерительные обмотки преобразовател 1 через соответствующие полосовые фильтры 5, 6 и фазовые дискриминаторы 7, 8 подключают к блоку 9 обработки и измерени сигналов N₁ и N₂. Нагружают образец ступенчато в продольном направлении и фиксируют изменение выходного сигнала ΔN₂(ΔN₁ = 0). Определ ют тарировочный коэффициент T. Затем устанавливают преобразователь на исследуемые издели , оринтируют вдоль произвольно выбранного направлени , запитывают обмотки возбуждени преобразовател 1 от источников 3, 4 и фиксируют сигналы N₁ и N₂, поступившие на вход блока 9. Величину интенсивности напр жени δ_I определ ют по формуле, приведенной в описании.The invention relates to instrumentation engineering and makes it possible to increase the accuracy of measuring the intensity of mechanical stresses in ferromagnetic materials. Magnetoelastic transducer 1 in the form of two unequal cross-shaped electromagnets is mounted on the reference sample and oriented in the longitudinal direction. The sample is magnetized in directions that make an angle of 45 ° between each other. For this, the field windings are connected to alternating voltage sources 3, 4 with frequencies F ₁ and F _2, respectively. The measuring windings of the converter 1 are connected to the processing and measuring unit N ₁ and N ₂ via the corresponding band pass filters 5, 6 and phase discriminators 7, 8. Load the sample in steps in the longitudinal direction and record the change in the output signal ΔN ₂ (ΔN ₁ = 0). The calibration factor T is determined. Then, the converter is installed on the tested products, aligned along an arbitrarily chosen direction, energizes the excitation windings of converter 1 from sources 3, 4 and records signals N ₁ and N ₂ received at the input of unit 9. The magnitude of the voltage intensity δ _I is determined by the formula given in the description.

Description

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Редактор А.ДолиничEditor A.Dolinich

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Составитель В РодинCompiled In Rodin

Техред М МоргенталКорректор С.ЧерниTehred M. Morgenkorrektor S. Cherni

Claims

Claim

1. A method for determining the voltage intensity in products made of ferromagnetic materials, which consists in installing a transformer-type magnetoelastic transducer on a reference sample made of the same material as the controlled product, orienting it on the sample, loading it in a longitudinal direction magnetize the material of the sample in the zone of operation of the transducer in directions making an angle of 45 ° to each other, fix its output signal proportional to the change in magnetization in boards perpendicular to the directions of magnetization after each stage of loading, determine the calibration coefficient, install the transducer on the controlled product, orient the magnetization of the material of the product in the zone of the transducer in the directions making an angle of 45 ° with each other, fix its output signal proportional to the change in magnetization in the directions perpendicular directions of magnetization, characterized in that, in order to increase the accuracy of measurements, the magnetization of matter LA is carried out simultaneously by two alternating magnetic fields, varying in frequency and equal in intensity, and the voltage intensity is determined by the formula

ΥΊϊΤ + 4 nl ”~ (1 4 ^) 1 where Оy - voltage intensity;

0 _With p - the average deviation of the determination of the stress intensity using the criterion of the highest shear stresses;

T - calibration factor.

2. A device for determining the intensity of the voltage in products made of ferromagnetic materials, containing 10 magnetoelastic transducers, made in the form of U-shaped uneven magnetic circuits located at an angle of 45 ° relative to each other, with field windings connected to the power supply unit 15, and measuring windings, included in the circuit of the signal processing and measurement unit, characterized in that, in order to increase the accuracy of measurements, two additional bandpass filters and two phase detectors are added to it. and the power supply is made in the form of power supplies of two alternating voltages that vary in frequency, and the input of each of the bandpass filters is connected to the 25th measuring winding of the corresponding U-shaped magnetic circuit located at an angle of 90 ° to the U-shaped magnetic circuit with an excitation winding connected to the source AC voltage, the frequency of which corresponds to the frequency of a given band-pass filter, the outputs of the band-pass filters through phase detectors are connected to the signal processing and measuring unit, while o35 rye inputs of phase detectors t; P2 - the values of the output signal are connected to the corresponding source converter in the directions, to the supply component.

angle 45 ° between themselves: 4 _l

FIG. 5

8-8

Phage 7 t H G „'♦ ^y Fie. 8