SU1249434A1 - Electromagnetic-acoustic method of checking strength properties of ferromagnetic articles - Google Patents

Abstract

The invention relates to instrumentation technology and coins to be used to control the strength properties of ferromagnetic products using the electromagnetic acoustic (EMA) method. The aim of the invention is to increase the reliability of control by reducing the effect on the damping result of the product. The product is magnetized with a constant magnetic field of a given magnitude, acoustic oscillations are created in it using an EMA converter, the variable component of the induction is measured and, judging the mechanical properties of the product, the signal U (j proportional to the deformation of the product, due to acoustic oscillations, the ratio of these signals Uq / Uq is determined and, based on a predetermined correlation between this ratio and the strength properties, the results are determined Tat control. 1 Il., 1 tab.

Description

one

The invention relates to the control of measuring technique and can be used to control the strength properties of ferromagnetic products by the electromagnetic-acoustic method.

The purpose of the invention is to increase the reliability of control by reducing the effect on the damping of the product.

The drawing shows a block diagram of a device that implements the proposed control method.

The device contains a source of the bias current I connected to the solenoid 2, an ultrasonic frequency generator 3 connected to an inductive excitation coil 4 installed on the product 5, a receiving coil 6 connected through an amplifier 7 to the first input of a voltage divider 8, a strain gauge 9 connected through selective amplifier 10 with the second input of the splitter 8, and the indicator I 1.

The method is carried out as follows.

Mechanical stresses P are applied to product 5 (or residual stresses have already been created in it) and are magnetized by a constant field of solenoid 2 fed by current of source 1. With the help of coil 4, washed down by generator 3 of ultrasonic

the tons, in the product excite acoustically, that magnetize the product

Kie fluctuations. The Lly signal arising in the receiving coil 6 is recorded, proportional to the variable induction coupling due to mechanical stresses on the product / amplified by force 7 and fed to divider 8. At the same time, using a strain gauge 9 on the strain gauges and the selective amplifier 10, the signal Ja is recorded proportional deformation of the product, also caused by mechanical stresses, and is supplied to the second inlet of the divider -8. The indicator reflects the ratio of these electrical signals Uu / Ua, and by a predetermined correlation

40

45

50

A constant magnetic field excites acoustic oscillations in it and measures a signal proportional to the variable component of the induction of the product, characterized in that, in order to increase the reliability of the control, simultaneously with the stress transducer, a signal proportional to the deformability of the product caused by acoustic fluctuations, as an informative signal, the ratio of the signal proportional to the variable component of the induction to the signal proportional to the deformation is used.

Between these parameters and the tensile strength of 5 parts, the result of the control is determined.

The proposed technique was applied to the measurement of Uu and Uj of 40X steel parts, which are a 225 mm long cylinder with a diameter of 49.5 mm and a wall thickness of 5 mm.

The table shows the ratio of U / Ua and U determined from the measurements (according to the known), the tempering temperature of the parts, the average value of the discharge time of 6g (error 1%), and also the values of the scatter D

.. / ,, Max -, / ,,

 And Uu / and, respectively, for pairs of parts released at the same temperature and having 1x, therefore, the same strength properties.

From the data in the table it can be seen that the variation in the values of the informative parameter for parts with orinak properties, taking into account the magnitude of the deformations (stresses) occurring in Them, is significantly reduced (by a factor of 8 in relative units and by a factor of 4 in absolute).

Claims (1)

0 claims Electromagnetic-acoustic method of controlling the strength properties of ferromagnetic products, concludes 1ys 0 five in that the product is magnetized A constant magnetic field excites acoustic oscillations in it and measures a signal proportional to the variable component of the induction in the product, characterized in that, in order to increase the reliability of the control, simultaneously with the help of the strain gauge, the signal proportional to the distortion of the product caused by acoustic fluctuations, as an informative signal, the ratio of the signal proportional to the variable component of the induction to the signal proportional to the strain is used. . 370 350 340 330 290 270 134 145 160 167 190 191 14.4 21 eleven 18 54 1.00 0.97 0, §0 0.95 0.61 0.58 0.53 0.51 0.33 0.33 0.39 0.36 5.5 4.9 3.8 7.7 Editor A. Shishkin Order 4229/45. Circulation 778 Subscription VNIISH State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Compiled by V. Filipov Tehred G. Gerber Proofreader S. Cherni