SU862055A1 - Method of determination of magnetic fraction content in ferromagnetic material - Google Patents

Description

The invention relates to the field of non-destructive testing and can be used to determine the content of the magnetic fraction in ferromagnetic materials.

There is a method of determining the content of the magnetic fraction in ferromagnetic materials, which consists in the fact that the ferromagnetic material is magnetized by a constant magnetic field, the residual> magnetization is measured, and it is used to judge the content of the CO magnetic fraction. The disadvantage of this method is the low accuracy of measurement, which is associated with the influence of the size and shape of the particles of the material on the control results.

Closest to the proposed invention 'in technical essence, the method for determining the content of the magnet - the proposed method; in FIG. 2 Ayu fraction in ferromagnetic materials, which consists in the fact that the ferromagnetic material is affected by an alternating magnetic field, the electromagnetic interaction of the alternating magnetic field with the ferromagnetic material is measured and the content of the magnetic fraction in it is judged by the magnitude of this interaction 12J.

0.2 <^ 50.8, where B and H are the induction and magnetic field strength at an arbitrary point in the controlled volume of the material, respectively.

In FIG. 1 shows a structural diagram of a device that implements the dependence M = m (v). Device implementing the method consists of an electric preobrazo25 Vatel comprising frame 1 and the windings 2, 3, 4, 5 measuring voltage source 6, a constant voltage source ⁷ and 7 alternating voltage. The method is implemented as follows.

The studied ferromagnetic material 8 is located in the inner cavity of the frame 1.

An alternating voltage source 7 feeds the winding 4, creating an alternating magnetic field interacting with the ferromagnetic material under investigation ³ ! 8. At the same time, the ferromagnetic material under study 8 is affected by a constant magnetic field formed by the winding 3 fed from the source. point 6 constant voltage. When the ferromagnetic material under study is magnetized 8. by a constant magnetic <6 mm to a state close to saturation. (0.2 <g-jj £ 0.8), the limits of variation of the induction over the volume of the studied ferromagnetic material 8 change from (B ^; Bj) from (B _o + B_ <; B _o + B / J, is the lower boundary of the induction of an alternating magnetic field e; B _a is the upper boundary of the induction of an alternating magnetic field; B _o is the induction of a constant magnetic field. It can be seen from Fig. 2 that when unchanged value of the change in the magnetic field induction over the volume of the investigated 25 ferromagnetic material 8 = (B _g + Ve) - (V ₄ + B _0)] investigated the change in the magnetization vector of the ferromagnetic material 8 to its volume is substantially reduced when the magnetization 30 of the ferromagnetic material investigated Chivanov 8 permanent magnetic field due to the nonlinear characteristics of M = f ( B) (m £ -M *! En _g -M _h ). A decrease in the limits of variation of the magnetization vector M of material 8 in volume 8 determines the effect of increasing the uniformity of the magnetic field in the volume of the ferromagnetic material under study, and this, in turn, dd reduces the effect of fineness ferromagnetic particles, their shape and distribution pattern transmitted through the investigated ferromagnetic material 8 magnetic flux on the accuracy of the definition of the content of the magnetic fraction in ferromagnetic materials.

By registering the voltage of the measuring winding 2 using a voltage meter 5, judge the content of the magnetic fraction in the studied ferromagnetic material 8.

Thus, the method allows to increase the accuracy of determining the content of the magnetic fraction in the ferromagnetic material, as it allows to weaken the influence of variation in the size of the particles forming it.

Claims (2)

Examined ferromagnetic mother 8 is placed in the inner band of frame 1. The alternating voltage source 7 feeds the winding 4, creating an alternating magnetic field that interacts with the ferromagnetic material 8 studied. At the same time, the ferromagnetic material 8 is exposed to a constant magnetic field formed by the winding 3, powered from a constant voltage source. When magnetizing the ferromagnetic material under study is 8. permanent magnetic (damage to a state close to saturation. (0.2 0.8), the limits of variation of the induction on the volume of the ferromagnetic material 8 under study change from (Bj) from (BO + B BO + BQ), B - lower limit of induction of an alternating magnetic field; B is the upper limit of induction for an alternating magnetic field; Intrinsic induction of a constant magnetic field. From FIG. 2 that with a constant change in the induction of the magnetic field over the volume of the ferromagnetic material 8 () - (B, + BO) under study, the change in the magnetization vector of the ferromagnetic material 8 under study is significantly reduced when the ferromagnetic material 8 under study is magnetized by a constant magnetic field nonlinearity characteristics (B) (M -M "H / j; -M). Reducing the limits of variation of the magnetization vector M of material 8 over its volume determines the effect of increasing the magnetic field uniformity in the volume of the ferromagnetic material under study, and this, in turn, reduces the effect of the size of ferromagite particles, their shape and distribution pattern in the material passing through the ferromagnetic material under study 8 magnetic flux on the accuracy of determining the content of the magnetic fraction in ferromagnetic materials. The register of the voltage of the measuring winding 2 with the help of a voltage meter 5 is judged on the content of the magnetic fraction in the ferromagnetic material 8 under investigation. Thus, the method improves the accuracy of determining the content of the magnetic fraction in the ferromagnetic material, as it reduces the effect of size variation particles forming it. The method of determining the content of the magnetic fraction in ferromagnetic materials, namely, the ferromagnetic material is affected by an alternating magnetic field, the electromagnetic interaction of the alternating magnetic field with the ferromagnetic material is measured, and the magnitude of this interaction is measured according to that, in order to increase the measurement accuracy, the ferromagnetic material is additionally affected by a constant magnetic field, the value of which is chosen They come from the condition 0,, 8, where Vin is, respectively, the induction and intensity of the magnetic field at an arbitrary point of the material volume being monitored. Sources of information taken into account during the examination 1.Maryuta A.N. and others. Quality control of iron ore. Kiev, Technique, 1976, p. 79. 2. Patent of the USA 3808524, cl. G 01 R 33/12, 1974 (prototype). 3 " / / ,. 1 I / 7 %% %%;% %%% $ %%%%%%:%  0 "Jf 01 0